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promoting access to White Rose research papers
White Rose Research Online
Universities of Leeds, Sheffield and Yorkhttp://eprints.whiterose.ac.uk/
This is an author produced version of a paper published inStudies in Historyand Philosophy of Science Part A
White Rose Research Online URL for this paper:http://eprints.whiterose.ac.uk/3320/
Published paper Topham, J .R. (2000) Scientific publishing and the reading of science innineteenth-century Britain: a historiographical survey and guide to sources, Studies in History and Philosophy of Science Part A, Volume 31 (4), 559 - 612.
[email protected]
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Scientific Publishing and the Reading of Science in Nineteenth-century
Britain: A Historiographical Survey and Guide to Sources
Jonathan R. Topham, Science in the Nineteenth-century Periodical (SciPer) Project,
School of Philosophy, University of Leeds, Leeds, LS2 9JT and School of English,
University of Sheffield, Sheffield, S10 2TD
Claims to knowledge become accepted insofar as they are embodied in
effective acts of communication. And the persuasiveness of particular claims
is not simply a result of what was said, but also of how it was said, where, and
by whom.
Jan Golinski, Science as public culture1
Great have been the recent revolutions in the book trade. Cheapness,
combined with elegance, is the universal order of the day, and historians,
poets, novelists, who used to come out in two guinea quartos, or fifteen
shilling octavos, or even twelve shilling duodecimos, are now compressed into
little five shilling volumes, each of which often contains nearly twice as much
as was formerly sold for the same sum.
Congregational Magazine (1837)2
It is now generally accepted that both the conception and practices of natural enquiry
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in the Western tradition underwent a series of profound developments in the late eighteenth
and early nineteenth century—developments which have been variously characterized as a
‘second scientific revolution’ and, much more tellingly, as the ‘invention of science’.3 As
several authors have argued, moreover, a crucial aspect of this change consisted in the
distinctive audience relations of the new sciences. While eighteenth-century natural
philosophy was distinguished by an audience relation in which, as William Whewell put it, ‘a
large and popular circle of spectators and amateurs [felt] themselves nearly upon a level, in
the value of their trials and speculations, with more profound thinkers’, the science which
was invented in the late eighteenth and early nineteenth century was, as Simon Schaffer has
argued, marked by the ‘emergence of disciplined, trained cadres of research scientists’ clearly
distinguished from a wider, exoteric public.4 Similarly, Jan Golinski argues that the
‘emergence of new instrumentation and a more consolidated social structure for the specialist
community’ for early nineteenth-century chemistry was intimately connected with the
transformation in the role of its public audience to a condition of relative passivity.5
These
moves were underpinned by crucial epistemological and rhetorical shifts—from a logic of
discovery, theoretically open to all, to a more restrictive notion of discovery as the preserve
of scientific ‘genius’, and from an open-ended philosophy of ‘experience’ to a far more
restrictive notion of disciplined ‘expertise’. Both of these moves were intended to do
boundary work, restricting the community active in creating and validating scientific
knowledge, and producing a passive public.6
Intimately connected with these changes was the creation of the familiar diffusionist
notion of ‘popularization’ in which scientific ideas are viewed as being communicated in a
basically linear process from the (expert) context of discovery and validation to the (lay)
context of passive public consumption.7 It is no coincidence that this sense of the verb ‘to
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popularize’ was developed in English at just the same time that the word ‘scientist’ was
invented to describe the new experts who sought to develop such an audience relation. 8
Indeed, it is now increasingly recognized both that this notion of popularization was a crucial
element in the self-fashioning of the emergent scientists of nineteenth-century Britain, and
that it continues to do important work for present-day scientists.9 Thus, while the diffusionist
model is utterly inadequate as a characterization of the actual processes of scientific
communication, its history is nevertheless central to an understanding of how such audience
relations have been created and sustained, and should constitute a crucial element in the
history of ‘science’, strictly defined. The diffusionist notion of ‘popularization’ has
profitably become the object of historical study, while being rejected as a historiographical
principle.
Of course, attempts to create and maintain a large, passive, lay audience for
esoterically validated scientific knowledge were by no means universal, nor were they either
immediately or uniformly successful. To take only one example, Susan Sheets-Pyenson has
argued that the popular science periodicals published in early nineteenth-century London
embodied a form of ‘low science’ with an experiential, inductivist openness to non-expert
involvement in science which was only gradually supplanted by a more closed form of
‘popular science’, intended to render audiences increasingly passive, in the second half of the
century.10 Indeed, the crucial question is how, among a plethora of competing views of the
theory and practice of natural enquiry, the science which prevailed came to do so.
Yet, while historians have to some extent addressed the mechanisms by which a
science characterized by the audience relations described here was created and maintained in
early nineteenth-century Britain, it is striking that these transformations have not generally
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been related to another, equally revolutionary change which took place in the period—
namely, the appearance for the first time of a mass medium of print. For it is clearly of
considerable significance that the same period which witnessed the creation of specialist
scientific disciplines, typified by trained cadres of ‘experts’ and increasingly arcane and
technical vocabularies, also saw the potential readership for printed accounts of those
sciences increase exponentially. While it goes without saying that print was far from being
the sole medium (nor necessarily the most important) by which the new scientists sought to
make their local knowledge into public knowledge, their achievement of cultural authority in
the context of an ever more powerful popular press raises many important questions. As
Roger Cooter and Steven Pumfrey put it: ‘Since “popularizations” are communicative
processes, their histories must attend to the history of communicative production.’11
One important area of interest concerns the involvement of the incipient scientists in
managing the new print media to secure their ends, and there has been increasing historical
interest in the rhetorical strategies by which practitioners sought to construct audiences and to
make their science public. However, this work has tended to be carried out with little
consideration either of the rapidly changing print culture through which such rhetoric was
mediated to audiences, or of the nature of the new reading audiences themselves. This
arguably testifies to the lingering presence in our historiography of one of the assumptions of
the diffusionist model—that the communication of scientific ideas and practices operates (at
least when successful) in an unmediated, unidirectional manner from the scientist to the lay
public. However, as Roger Cooter and Stephen Pumfrey argued in an important recent
article, the search for an alternative model by which to analyse the multi-directional, actively
contested communication of scientific ideas and practices has proved forbidding.12 In this
context we can benefit from the insights of the new history of the book, developed notably by
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Roger Chartier and Robert Darnton, which reinstates to active roles not only those involved
in mediating authors’ texts, but also those who read the texts thus mediated.13 In particular,
as I have argued elsewhere, Darnton’s notion of a ‘communication circuit’ of print, in which
‘messages’ variously embodied in people and objects, pass from authors and publishers
through printers, ‘shippers’, booksellers, and readers, and ultimately back to authors and
publishers, provides a useful heuristic for exploring the multi-directional and actively
contested nature of scientific communication by print.14
My object in this account is to discuss ways in which such an account could be
developed in regard to science in early nineteenth-century Britain—identifying some of the
historiographical issues, and outlining some of the available sources. This exercise seems
doubly necessary. Firstly, while historians of Renaissance and early modern natural
philosophy have over the last decade turned increasingly to the history of the book in dealing
with the issue of scientific communication, the approach has yet to be applied to any great
extent to the nineteenth century, notwithstanding the profoundly important conjunction of the
invention of science and the development of a mass medium of print in this period. 15
Secondly, it is notable that nineteenth-century publishing and reading have been more
generally bereft of historical attention than earlier periods, not least because scholars have
understandably been daunted by the staggering increase in the scale of book production and
consumption in the period.16 Clearly, it would not be possible to provide a detailed analysis
of what is a vast and largely unexplored territory within the confines of this account. Instead,
my objective is to sketch out an agenda for further study, both within the history of science,
and within book history.
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THE READERS FOR SCIENCE
I am out of all patience with this march of mind. Here has my house been
nearly burned down, by my cook taking it into her head to study hydrostatics,
in a sixpenny tract, published by the Steam Intellect Society, and written by a
learned friend who is for doing all the world’s business as well as his own ...
My cook must read his rubbish in bed; and as might naturally be expected, she
dropped suddenly fast asleep, overturned the candle, and set the curtains in a
blaze.
Rev. Dr. Folliott in Thomas Love Peacock, Crotchet Castle (1831)17
In his model of the ‘communication circuit’ of print, Robert Darnton suggests that the
reader ‘completes the circuit because he influences the author both before and after the act of
composition’.18 Likewise, recent literature in the history of science has emphasized the
extent to which the publics for science have sometimes had considerable impact on the
scientists who sought to ‘enrol’ them, and ultimately on the nature of science itself.19 These
insights indicate both the value, and the legitimacy, of beginning our analysis with the
readers of books on scientific subjects, rather than with the authors of such books. For, until
the readers for science are brought into the foreground, and considered as actively engaging
with what they read, the processes by which the authoritative audience-relations of science
were actually accomplished will not be adequately understood.
Clearly, one important element in attempting to understand these processes will
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always be a focus on the reception of those works of scientific exposition by which
practitioners sought to enrol various publics. However, before such work can deliver the
insights we require, it is necessary to gain an adequate understanding of the place of natural
knowledge more generally in the diverse and fragmentary socio-cultural groups variously
subjected to these self-conscious acts of popularization. As James Secord has argued, such
an exercise must begin ‘from the ground up, looking at the basic material products of cultural
life’, including those printed objects (books, periodicals, and ephemera) relating to natural
subjects.20 Moreover, it must include not only objects which embody the science of the
gentlemanly elite and such dissident sciences as phrenology, mesmerism, and Scriptural
geology, but also those embodying non-scientific and even anti-scientific approaches to
nature—from astrological almanacs and herbals to books of Christian devotion. Thus, an
important starting point is to attempt an assessment of which printed objects relating to
natural subjects were actually read, and by whom.
Who read what, and where
Perhaps the most basic indicator of what was read is the pattern of production: what
titles were produced, at what price, and in what quantities? The subsequent history of such
publications—whether they were made available in libraries, read aloud in public houses, or
allowed to moulder unread in aristocratic collections—is, of course, of considerable
importance, but the basic production data nevertheless provide an important point of
departure which has barely begun to be explored. It has been bibliographers—more often
librarians and collectors than historians—who have done most toward recording the output of
books on different scientific subjects, and there exist many subject and individual
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bibliographies, which give some useful data, albeit of variable quality.21 However, these
sources rarely provide any assessment of the patterns and trends of the production of
scientific books.22 Moreover, they have a tendency toward a presentist focus on the ‘great
men’ and ‘great books’ of science, at the expense of the many often very widely read books
which subsequent history has obscured.23
The two most deliberate attempts to assess the patterns of production of publications
on natural subjects in this period remain the unpublished doctoral theses of G. S.
Kitteringham and D. A. Hinton, both of which are attempts to understand the place of science
in ‘popular culture’ in early nineteenth-century England.24 Lamenting the difficulty of
establishing the actual views of those outside the gentlemanly elite, both authors focus
primarily on communication media—books, periodicals, libraries, institutions, and lectures—
as being both determinants and indicators of what they call ‘popular science’. Repudiating
the diffusionist model of popularization, they are interested in establishing what was
available to readers rather than in simply tracking the output of known gentlemanly
popularizers. In particular, Kitteringham attempts to assess the prevalence of books by
relying on contemporary trade lists like the London Catalogue of Books, rather than merely
on the received canon of popular science books. As a result, his consideration of the books
relating to nature which were available to working-class readers includes widely circulated
chapbooks and almanacs in addition to the more familiar cheap publications of the Society
for the Diffusion of Useful Knowledge.25
Of course, more recent work has exemplified radically new ways of exploring the
place of natural knowledge in the lives of those outside the gentlemanly elite, and in this
regard the work of Hinton and Kitteringham has been superseded. 26 Nevertheless, the kind
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of analysis of print media which they used, if developed in a rigorous manner, could still
make an important contribution to an understanding of the actual experiences of
contemporary readers. Moreover, while no attempt has been made within the history of
science to advance such an analysis, developments in bibliography and book history are
making it increasingly feasible. As recently as the early 1990s, when in my doctoral researc
on the
h
Bridgewater Treatises I sought comparative data relating to edition sizes, book prices,
and the prevalence of different genres in the period, I had to rely on the brief account of the
development of the mass medium of print given in Richard Altick’s ground-breaking social
history of the mass reading public, which, while more than thirty years old, was still the
standard account of the changing patterns of production. 27 In the years since then, however
books historians have begun more determined efforts to assess the overall patterns of bo
production in the nineteenth century—attempts which have been given a tremendous fillip by
the development of computerized bibliographical databases—and many potential avenues
research are beginning
,
ok
for
to emerge.
One of the most prominent scholars working in this field is Simon Eliot, who has
applied the techniques of bibliometry to nineteenth-century publishing, showing how data
from admittedly partial sources such as the Publishers’ Circular and the British Museum
copyright receipt books, can be used to assess the overall patterns and trends of book
production. Eliot’s more systematic analysis, while not fundamentally altering the overview
given by Altick, is serving to flesh out a more detailed picture, not only of the headline
patterns and trends of book production, but also of patterns and trends in the price structure
of the book market and of subject publishing.28 More recently, Eliot has been able to extend
his analysis by using the CD-ROM edition of the Nineteenth century short title catalogue
(NSTC) which, despite its being a skewed sample, nonetheless provides an extremely
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important resource by which large-scale patterns and trends of book production can be
assessed.29 From the perspective of the history of science, Eliot’s data on the subject trends
in nineteenth-century publishing are particularly suggestive. The data are based on the
NSTC’s Dewey-decimal subject classification, which clearly imports anachronistic
categories. However, while Eliot urges caution in using the results, these first
approximations seem to indicate some highly significant publishing trends. Firstly, the
NSTC-listed titles in the ‘Pure Science’ classes (500-599) show a marked proportional
increase for the decade 1861-70 (5.10%) as compared with the decade 1801-10 (3.47%), one
of only two subjects to show such an increase. 30 Secondly, Eliot is able to break down the
trends within the ‘Pure Science’ classes to show that there was a very marked increase over
the same period in titles in the earth and life sciences (32.26% rising to 44.80%), relative to
titles in the physical sciences (60.06% falling to 44.90%).31
Establishing such long-term trends is clearly of considerable importance to historians
concerned with the place of science in British culture, and while such evidence requires
careful handling, there will undoubtedly be growing dividends as the level of bibliographical
control becomes ever greater. Indeed, literary historians are already demonstrating both the
advantages and the practicality of reconstructing what James Raven describes as ‘full
publishing profiles’.32 Raven argues persuasively that it is only by such means that the
historian can avoid what he calls (following Darnton) ‘cultropomorphic distortion’, resulting
from the reliance on a few canonical works as representative of the whole.33 Raven thus
bases his analysis of the literary assault on the newly wealthy in late eighteenth-century
England on ‘a continuing project to recover all fiction published and reprinted in Britain and
Ireland from 1750 to 1800’.34
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A similar approach to publications on natural subjects, though certainly daunting,
would have radical implications for our understanding of what was available to readers, and
ultimately of the place of science in the wider culture. Quite as much as in literary history,
the history of science has been dominated by a canon of works which has distorted our view
of the subject. The value of attempting to recover the vast body of forgotten books is clearly
demonstrated by Peter and Ruth Wallis’s project to ‘list every book and article published in
Britain or in English in the field of mathematics, and its applications’, up to 1850. 35 On the
appearance of the first part of their projected three volume biobibliography in 1986, listing
multiple editions and reprints of approximately 10,000 titles published between 1700 and
1760, the eminent Newton scholar, D. T. Whiteside, felt obliged, as one who had ‘worked
full time in the area for over thirty years’, to ‘say humbly that he ha[d] never even heard of
the great majority of them’.36 Moreover, as the Wallises’ work amply demonstrates, many of
the books which lie beyond the historical canon were circulated far more widely than those
within. To take an example from the nineteenth century, the clerical author Ebenezer Cobham
Brewer’s Guide to the scientific knowledge of things familiar ([1841?]) is almost unknown
within the history of science, yet an astonishing 113,000 copies were reported to have been
printed by 1873, rising to 319,000 by 1905.37 Such sales dwarf those of the ‘great’ books of
nineteenth-century science, and while extensive circulation is by no means a reliable
indicator of the importance of a book to its readers, it is only by recovering such works that
the question of their significance can even be addressed.
In terms of outlining patterns of production, historians of nineteenth-century science
have given much more attention to periodicals than they have to books. 38 One reason for this
is undoubtedly that the problem of bibliographical control is far less complex with
periodicals than it is with books: as Robert Gascoigne observes, it would be ‘laborious’, but
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not ‘difficult’ to compile a ‘comprehensive list of [scientific] periodicals from 1665–1900’.39
Moreover, the fact that journals played a particularly important role in defining reading
audiences means that scholars working in this area have been concerned to relate the patterns
of journal production to the emerging audiences with which they are associated.40 However,
much work still remains to be done in this area. One particularly striking omission is that the
scientific content of the non-specialist reviews, magazines, and newspapers—which
generally had much wider circulation than the specialist periodicals—until recently received
almost no scholarly attention for this period.41 An initiative to rectify this situation has
recently been inaugurated at the Universities of Leeds and Sheffield, where the Science in the
Nineteenth-century Periodical (SciPer) Project, under the direction of Geoffrey Cantor and
Sally Shuttleworth, is engaged in indexing and analysing the science content of nineteenth-
century general periodicals.42
Of course, patterns of distribution were equally as important as patterns of production
in determining what was available to readers. This was perhaps more than ever the case in
early nineteenth-century Britain, when the growth of reading audiences combined with the
continued high prices of books to make libraries and book clubs increasingly central to print
culture.43 Yet, with the exception of the studies of Hinton and Kitteringham, little work has
been done to explore the prevalence of scientific books in contemporary libraries. Even the
literary and philosophical societies and the mechanics’ institutes, which have been a
particular focus of scholarship in the history of science, have received strikingly little
attention in regard to their library holdings.44 Moreover, such libraries were far outnumbered
both by commercial circulating libraries and by chapel libraries, which were frequented by
large numbers of readers, and were clearly important determinants of reading in the early
nineteenth century.45 Other aspects of distribution are also relevant here, from the circulation
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of free religious literature, to the state of the second-hand book market, which was an
important resource for many readers.46
So far I have discussed only the indirect evidence of who read what. Yet the mere
production of vast numbers of copies of a book, or its appearance in many libraries, do not in
themselves provide unequivocal evidence that the book was either widely read or particularly
significant for its readers. Likewise, the appearance of a book in a style, and at a price,
intended to make it appeal to one socio-economic class, does not in itself constitute reliable
evidence of the book’s actual readers. As Roger Chartier has argued, the ‘fluid circulation’
of books across social boundaries means that it is not possible to identify certain forms of
literature with particular social groups in any decisive manner. 47 On the one hand, for
instance, we find that the Penny Magazine of the Society for the Diffusion of Useful
Knowledge and the Saturday Magazine of the Society for Promoting Christian Knowledge—
both intended for working-class readers—constituted the ‘chief reading’ of the Darwin
household in the months after their first production in 1832. Indeed, Susan Darwin told her
brother that the Penny Magazine was the perfect vehicle for learning ‘a little smattering’ of
geology.48 On the other hand, the blacksmith’s son Michael Faraday gained his first
knowledge of chemistry from such fashionable fare as Jane Marcet’s Conversations of
chemistry (1806, 14s.) and the Encyclopaedia Britannica—books encountered in the
prosecution of his trade as an apprentice bookbinder.49
Given this disparity between production and consumption, the recovery of the often
faint traces of individual reading habits is clearly an essential component of any history of
reading. Of course, such research is dauntingly time-consuming, and some historians appear
doubtful of its practicability. Nevertheless, recent trends in scholarship are making evidence
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of individual acts of reading increasingly available. Research concerning loans from
institutional libraries and the contents of private libraries has in the last few years been put on
a surer footing by Robin Alston’s compilation of a database of over 12,000 commercial and
institutional libraries existing in the British Isles before 1850, together with information on
several thousand private libraries and book owners.50 Likewise the data from more than
1500 book subscription lists for the period 1680 to 1830 has now been collated and m
electronically searchable.
ade
hat, and where.
51 Evidence of reading habits from more personal sources is also
becoming increasingly accessible with the appearance of new editions of correspondence and
with the production of bibliographies of autobiographies and diaries. 52 Indeed, such
evidence is now being collected in a more concerted manner with the instigation of the
Reading Experience Database (RED) at the Open University.53 Historians have never been
in a better position to identify the actual patterns of reading of historical actors, and it is only
by reading the evidence of production and distribution in the light of this more direct
evidence that an accurate picture can be obtained of who read w
How readers read, and why
Identifying who read what and where, is clearly only a first step toward a history of
reading: it is what Darnton calls the ‘external history of reading’. 54 In addition, we obviously
want to know how and why readers read what they read. Until recently, however, these
questions have all too often been answered chiefly by reference to the text itself. Both in
literary studies, and more generally, the text’s own self-definition, taken together with the
textual strategies for enforcing a particular reading, have often been assumed to present an
adequate account of its readers’ motivations and experiences. Yet, such an approach falls
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into what Jonathan Rose has called the ‘receptive fallacy’, in that it fails to acknowledge the
agency of readers in subverting authorial intentions and textual strategies. 55 As I have
argued elsewhere, the fact that a fashionable book of gentlemanly science like William
Buckland’s Bridgewater Treatise could be read by atheist radicals as a source book for
transmutation clearly indicates that a wider perspective needs to be taken. 56
The last few years have seen the crystallization of an historical approach to reading
which, while it acknowledges the relevance of more traditional theoretical approaches, seeks
to relate such work to the actual practices and experiences of readers. In outlining what they
consider to be the constituents of such a history of reading, Chartier and Darnton both
suggest that evidence from textual analysis must be supplemented by two further sources of
evidence.57 First, they point to the evidence concerning what we might call the semiotics of
the physical form of the book, arguing that the meanings encoded in the book as a physical
object are sometimes quite as significant a determinant of reading experiences as the text
itself. This insight comes in large measure from a chiefly Anglo-American tradition of
‘analytical bibliography’—a field commonly defined as ‘the study of books as material
objects’—but in the context of the new book history it takes on a wider relevance. Secondly,
Chartier and Darnton point to the historical evidence concerning the readers themselves and
the reading practices in which they were engaged, which has been a primary focus of recent
cultural history. Only by combining the evidence relating to texts with these additional
sources of evidence relating to forms and readings, they argue, can a thoroughly historical
history of reading can be developed.
Inasmuch as historians of science have concerned themselves with the readers for
science in early nineteenth-century Britain, they have, as we have already seen, generally
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done so by reference to the first type of evidence—the textual strategies of authors.
However, even here it has only been relatively recently that historians have drawn
significantly on literary theory in their textual analysis, and even then they have generally not
drawn specifically on reading theory.58 Such work has nevertheless demonstrated the
enormous importance of textual analysis in the history of science. One particularly fruitful
area of interest has been in the rhetorical nature of scientific writing—an interest which
reflects a wider concern in the more sociologically informed literature to understand science
as a rhetorical enterprise.59 The textual strategies of popular science writing have also come
under scrutiny—notably by Greg Myers, whose work demonstrates the manner in which the
audience relations of science in nineteenth-century Britain became embodied in the very
genres of scientific popularization.60 Mary Fissell has recently gone further, seeking to use
textual (‘reader-response’) analysis of a popular medical work, to elaborate a sophisticated
historical account of the reading practices of its otherwise unreachable early modern
readers.61
However, as Fissell herself suggests, such textual evidence should ideally be
augmented by the two other sources of evidence identified by Chartier and Darnton.
While historians of nineteenth-century science are increasingly aware that the
physical form of books provides evidence not only of their intended audience, but also of
their intended and actual meanings, we are still far from acquiring the highly developed sense
which contemporary publishers and readers had of the meaning of the physical form of the
book. The situation in early nineteenth century Britain was more complex than ever before,
as publishers increasingly sought to exploit different physical forms for different audiences,
often, indeed, producing multiple editions of the same work to suit the pockets and tastes of
different readers. It thus makes sense to think of the period as one in which new formal
genres, as well as new literary genres, were developed. That these new formal genres created
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expectations and structured readings is obvious from contemporary accounts of reading
experiences. As Leslie Howsam has recently shown, the ‘familiar red covers’ of the volumes
of the International Scientific Series communicated to contemporary readers a sense of
stability and quality somewhat independent of the actual text.62 Yet historians of nineteenth-
century science have rarely given any serious attention to the complex and changing
semiotics of typography, paper, format, or binding.63 Indeed, the prevalence of library
bindings, and more obviously of reprints, means that for many historians, the books they
handle are in an important sense not the same books as those used by the historical actors.
Just as literary theory provides the historian with the tools to understand the language of the
text, so the historian must look to analytical bibliography in order to learn the ‘language’ of
books, and thus to recover crucial aspects of historical reading experiences. 64
Important as both the textual and formal strategies of authors and publishers were in
structuring the experiences of readers, it is important not to underestimate the capacity of
readers to misunderstand or subvert those strategies in producing meaning. This is not to
imply that individual readers were wholly free agents. On the contrary, readers were not only
greatly affected by the formal and textual strategies of the printed object, but they were also
obviously constrained by the culture of the community to which they belonged. For this
reason, it is necessary to read the vestiges of actual reading experiences which we find in
diaries, autobiographies, letters, and marginalia, in the light of an understanding of the
concerns and the practices of the communities of readers to which their authors belonged. As
Chartier explains, there is a ‘paradox underlying any history of reading, which is that it must
postulate the liberty of a practice that it can only grasp, massively, in its determinations’.65
Thus, the full significance of the traces of individual reading only becomes apparent when
examined in the light of the reading practices of that reader’s community.
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Communities of readers are distinguished by differences in reading ability, by
differences in the ‘norms and conventions that define the legitimate uses, ways to read,
instruments and methods of interpretation’, and by differences in their ‘expectations and
interests’.66 The historical task, then, is to identify such differences by charting differences
in educational provision, by analysing the different conceptions of reading conveyed by suc
guides to reading as conduct manuals, periodical reviews, and sermons, by examining the
different representations of reading in works of art and literature and in more personal
sources like letters and autobiographies, and by considering the different spaces in which
reading took place. Yet, while there is now a growing body of literature on the history of
reading practices devoted to such a task, little work has yet been done in this area relating
specifically to nineteenth-century science.
h
67
The sources of evidence for reading practices which have undoubtedly received most
attention from historians of science have been periodical reviews. In the early years of the
nineteenth century, periodicals were an increasingly important source of advice on reading,
informing readers not only about what but also about how they should read. Yet reviews
have rarely been read with the practices of reading communities primarily in mind. Instead,
they have generally been used—sometimes rather uncritically—as evidence for the views of
certain well-known ‘opinion formers’ who wrote such reviews. This is reflected in the
typical focus on the heavyweight quarterlies and monthlies whose contributors are identified
in the Wellesley Index, supplemented by the fashionable weeklies (the Literary Gazette and
the Athenaeum).68 Nevertheless, important as such reviews undoubtedly are as indicators of
individual reactions, they can also be profitably read from the point of view of their original
readers. Of course, reviews were themselves subject to an active process of reading shaped
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by the practices of the reading community, and they must be read in that light. It is
significant, however, that the vast growth both in the number and variety of periodicals in the
early nineteenth century reflected a conscious move on the part of publishers to identify and
codify distinct reading audiences who shared the editorial reading ideals. Moreover, this vast
range of periodicals, largely unexplored by historians of science, provides important
indications of the reasons why reading publications on nature seemed valuable to different
reading audiences, and of the ways in which they might be read. Strikingly, for instance, the
religious monthlies remain almost completely unexplored. Yet the Wesleyan Methodist
Magazine alone reportedly sold 25,000 copies monthly in 1820—far more than either the
Edinburgh or Quarterly reviews—and for many readers, these magazines provided extremely
authoritative guidance both on what and how to read. 69
Although reviews are to the historian the most obvious and accessible sources of
guidance on reading, there were, of course, many others. Kate Flint, for instance, used
evidence drawn from the many conduct manuals of the early nineteenth century in her study
of The Woman Reader.70 Other books of the period provided guidance on the choice of a
library, ranging from Thomas Frognall Dibdin’s The Library Companion (1824), designed
for wealthy book-collectors, to B. F. Duppa’s Manual for Mechanics’ Institutes (1839).71 Of
course, not all sources of guidance were in published form. For many readers, sermons and
lectures were crucial, as were more personal sources of advice such as conversations and
letters. Indeed, it is striking how far reading remained embedded in oral culture, with a
continuing emphasis on sociability. From pubs to book clubs, and from middle-class parlours
to fashionable salons, talking about what one had read was an important part of social
intercourse. Yet to fulfil these social functions, reading had to be practised in particular
ways, and the varying, often tacit conventions of reading practice clearly generated different
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readings of the same physical objects. Reading itself was often oral—whether it was the
radical artisan reading Cobbett’s Weekly Political Register aloud at the pub, or the middle-
class family reading together in the parlour.72 Moreover, whether it was an oral or silent
process, the place of reading was clearly important in shaping reading practices. Charles
Dickens viewed the window tax as yet another of the ‘taxes on knowledge’ because it made
reading so difficult in working-class and many lower middle-class homes.73 Equally, should
the artisan or shopman look to do his reading elsewhere, the differing conventions of
Mechanics’ Institutes, dissenting chapels, and radical newspaper rooms each provided for
radically different experiences of reading.74
Of course, another major determinant of reading practices was education, an area
which saw huge transitions in early nineteenth-century Britain. Yet, while we know
something about the way in which scientific reading was presented with the Broughamite
context, and to some extent within the universities, we know next to nothing of many other
contexts.75 Particularly notable is our ignorance of the place of reading about nature in the
elementary day and Sunday schools organized by such religious organizations as the British
and Foreign School Society and the National Society for the Education of the Poor in the
Principles of the Established Church in England and Wales. 76 Yet the education which they
provided was the introduction to reading of a great part of the British population, and the
reading habits they inculcated were pivotal to future reading experiences. Religious
organisations were also, of course, responsible for flooding Britain with a tide of cheap, or
even free, literature during this period. More generally, the great explosion in print culture
clearly had a major impact on reading practices. It has even been suggested that a ‘reading
revolution’ occurred at the end of the eighteenth century, in which readers, faced with the
burgeoning production of printed matter, were increasingly unlikely to read and reread the
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same few items (intensive reading), instead reading large numbers of items, somewhat
omnivorously, discarding them after use (extensive reading).77 While it seems unlikely that
the change was so unequivocal and universal as this implies, it is clear that reading practices
did change radically with the burgeoning output.
The idea that the historian might be able to gain a fuller understanding of the
experiences of early nineteenth-century readers of books on nature by combining evidence of
the production, distribution, and consumption of books with evidence relating to the textual
and formal strategies of books, and to contemporary reading practices, has far-reaching
consequences for the history of science. Firstly, it guides us away from the ‘canon’ of
scientific works which embodies the agenda of contemporary scientists, and towards a more
diverse body of literature reflecting widely differing and often conflicting views of nature.
Secondly, it allows us to approach those books with a different set of questions. Instead of
concerning ourselves primarily with the objectives and rhetoric of those who created the idea
of the popularization of science, this approach provides us with an apparatus for
reconstructing the mental worlds of those outside the scientific elite, and for analysing how
such readers responded to the rhetoric of the new sciences. Such an approach thus
problematizes the whole issue of popularization, making the audience relation which it
presupposes a matter of historical contingency, and providing a means of analysing the
contest for cultural authority which resulted in its achievement.
THE PUBLISHERS FOR SCIENCE
The growth of knowledge is daily increasing in rapidity and strength. In this
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wonderful country, it is barely possible for those, who lead a quiet and
uniform life far beyond the reach of the hum of our great Metropolis, to form a
correct notion of the various channels by which knowledge is so swiftly and so
widely diffused; and it is not the least instructive feature in the HISTORY OF
BOOKS, to be appraised of the expenses incurred, and hazards run, in the
establishment of a popular and useful work.
Thomas Frognall Dibdin, The Library Companion (1825) 78
In the previous section I laid considerable emphasis on the agency of readers both in
choosing what to read and in the act of reading itself. Yet, as I have also emphasized, readers
were unquestionably constrained in numerous ways, not least by the availability of certain
kinds of books, and by the formal and textual strategies of those books. In both of these
respects, readers were largely dependent on a commodity market controlled by some of the
most powerful entrepreneurs of the industrial age—namely, the book trade. Indeed, as we
shall see, it would be difficult to overestimate the importance of early nineteenth-century
publishers as creative agents responsible for selecting and developing certain forms of
scientific publication. Yet, while the romantic notion of the scientific ‘genius’ has been
thoroughly deconstructed by historians of science, our historical narratives still arguably
embody something of a legacy from the romantic notion of the scientific author as the key
creative agent responsible for producing books that bear his or her name. It is only by
reinstating the agency and creativity of those involved in the manufacture of books, that we
can move beyond the rhetoric to understand the actual processes by which scientists and their
audiences interacted.
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Science and the book trade
The emergence over recent decades of the discipline of publishing history has gone
some way towards rectifying our ignorance of the early nineteenth-century book-trade. Yet,
dominated as it is by literary historians still often greatly attached to a canon written by
literary ‘geniuses’, publishing history has sometimes merely perpetuated the view of the
publisher as a minor adjunct to the author. Moreover, there has been a tendency to shy away
from the study of the commercial conditions and concerns of the literary marketplace as a
whole, and to focus instead on the activities of certain publishers whose patronage of
canonical authors marks them out as being of interest. Only in the last few years have
attempts been made to provide a more wide-reaching analysis of the book trade in early
nineteenth-century Britain, and much still remains to be done.
The book trade in the early nineteenth century was, of course, undergoing rapid and
profound change. Most notably, the output of printed matter rose rapidly throughout the
period, and in the second quarter of the century in particular there was a revolutionary
cheapening of books and periodicals to take in an ever-wider range of potential readers.
Given their tremendous importance for the history of science, the causes of these
developments clearly require careful consideration. However, historians of science have
tended to skirt around the question, often relating developments in an unduly determinist way
to the emergence of new printing technologies, or viewing it as an inevitable consequence of
the growth of literacy and the increasing cultural significance of print. While these were both
clearly important causal factors, they must be understood as part of a more fundamental shift
in the commercial organization and practices of the book trade.
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This is not to deny that the mechanization of many aspects of book manufacture in the
course of the early nineteenth century had far-reaching implications not only for pricing and
edition sizes, but also for both the form and content of books. Take, for instance, one of the
most ground-breaking publications of the first half of the nineteenth century—the Penny
Magazine of the Society for the Diffusion of Useful Knowledge, which was published in
eight-page weekly numbers from March 1832, and rapidly achieved previously unthinkable
sales of over 200,000 copies. In the preface to the first volume of the magazine, its editor-
publisher, Charles Knight, argued that such a work ‘could not exist in its present state …
except in a country where civilization is carried forward to very high degrees of perfection’. 79
This was so, he observed, not just because it presupposed a ‘vast number’ of readers, but
because it was dependent on the mechanical contrivances of modern book manufacture, and
on a reliable system of national transportation like that recently developed in Britain. 80 In
substantiation of his claim, Knight issued, towards the end of the second volume, a series of
supplements to the magazine under the title ‘The Commercial History of a Penny Magazine’,
in which he reflected on the importance of the new technologies for his enterprise.81 There
was, the articles made clear, hardly any aspect of book manufacture that had remained
unchanged in the preceding thirty years. The transformations had been fundamental—
ranging from the introduction of bleaching and mechanization in paper manufacture, through
the development of stereotyping and of printing machines, to the use of mass-produced cloth
case bindings—and Knight demonstrated just how essential these changes in the processes of
book manufacture had been in making commercially viable a work like the Penny
Magazine.82
Clearly, then, an appreciation of the changing technologies of book production is
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essential in terms of understanding the conditions of existence of certain types of publication
in the early nineteenth century. Indeed, this reiterates the importance of understanding the
physical evidence embodied in scientific books that points to machine-made, rather than
hand-made paper; stereotyped or machine-printed, rather than hand-composed or hand-
printed text; and edition bound, rather than individually bound volumes. Yet it is very easy
to slip from this ‘soft’ form of technological determinism to a ‘hard’ form which make
changes in print culture—particularly the rise of the mass circulation publications—follow
‘inexorably’ from the development of paper-making machines, stereotype moulds, steam
presses, or binding cloth, as Lee Erickson sometimes does in his recent and controversial
book, The Economy of Literary Form.83 In this context, we should perhaps turn again to
Charles Knight, who, notwithstanding his appreciation of the importance of the new
technologies of manufacture in making new products possible, argued that their application
to cheap publishing had been far from inevitable, but was crucially dependent on the actions
of individual publishers.84
Moreover, as John Feather points out, the development of these
technologies was itself the result of commercial imperatives in the book-trade: it was no
coincidence that the mechanization of book manufacture began just as the demand for print
was reaching unprecedented levels. While the kinds of products made possible by the
technological innovations in turn served to generate further demand for print, this was part of
what Feather calls a ‘cycle of development’, rather than a unidirectional causal chain. 85
However, while technological change in book manufacture was clearly prompted by
economic causes, the actions of publishers in developing and using particular technologies to
specific ends cannot simply be considered as the necessary result of the operation of ‘market
forces’.86 This kind of economic determinism is also found in Erickson’s Economy of
Literary Form, which presents an attempt to explain the prevalence of certain literary
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genres—specifically poetry, the periodical essay, and the novel—in terms of their
profitability within the prevailing market conditions. Erickson’s approach has, indeed, much
to commend it, for it serves both to mitigate the traditional overemphasis on the role of
authors in determining what is published, and to grant some agency in the matter to readers.
Yet he often implies that market forces necessarily called particular kinds of literary product
into being without the mediation of publishers. Thus, he writes of literary forms as
‘historical, aesthetic products of market forces reaching a momentary equilibrium between
the aspirations of writers and the desires of their audiences.’ 87
Even a cursory glance at the development of publishing in the early nineteenth
century, however, makes clear that, to a quite remarkable extent, the use of new technologies
and the creation of new publishing genres was the result of historically contingent
experiments by individual publishers. Indeed, as contemporary sources testify, publishers
were reluctant to employ the new technologies in developing mass circulation books, relying
instead on the traditional practice of producing small editions of books at high prices.88 The
book trade had long been known for its conservatism, and with elements of protection still in
operation, change was far from inevitable.89 In addition, the capacity of publishers to judge
the changing state of the market was severely limited. Charles Knight, writing in 1854,
clearly had in mind his losses on certain of the cheap publications of the SDUK when he
reflected: ‘The general cheapening of books must be gradual to be safe. The soundings of the
perilous sea of publishing must be constantly taken. There is no chart for this navigation
which exhibits all the sunken rocks and quicksands.’ 90
What is required, then, is an analysis which views the technical and socio-cultural
changes of the period from within the commercial context of the book trade, and which takes
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seriously the practices and motivations (and even the ignorance) of the publishers, as well as
the concerns of both authors and readers. While such an analysis has long been applied to
earlier periods, it is only in the last few years that historians of publishing have made a
concerted effort to develop such an analysis for nineteenth-century Britain.91 Moreover, the
difficulties experienced by Charles Knight and his contemporaries in charting the bookish
ocean are as nothing to those experienced by the modern historian. For, not only do we share
their ignorance of the actual state of the market for print, but we are also ignorant of the tacit
knowledge concerning the commercial practices of the trade that men like Knight took for
granted. Publishers rarely left explicit accounts of their decision-making processes, and as
historians we have to piece together the commercial practices of the trade from more indirect
sources. We have to immerse ourselves in the world of share books and trade sales if we are
to understand the tacit knowledge which enabled publishers to determine what they should
publish and how, and which thus ultimately contributed largely to the making of reading
audiences in this period.
How, then, are we to proceed? In the first part of this paper I argued that publishing
profiles—recording on a large scale the patterns and trends of publishing output—provide
valuable evidence regarding the reading matter available to readers. Ultimately, however,
these profiles are a more accurate reflection of publishers’ assessments of the market for
books than they are of readers’ desires, and as such they present an important starting point
for understanding the commercial practices of early nineteenth-century publishing. Simon
Eliot’s work in this regard, while clearly (and explicitly) limited by the partial nature of the
sources used, has nonetheless proved particularly illuminating. Thus, for instance, his
analysis of the shifting price structure of British book publishing serves to flesh out the point
made above concerning the cheapening of books, giving us the first tangible evidence that, at
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least on one sampling, the number of medium-priced titles (3s.7d.–10s.) overtook that of
high-priced titles (>10s.) between 1825 and 1835, and that low-priced titles (<3s.7d.) first
took the lead between 1845 and 1855.92 Such evidence clearly provides a more systematic
basis than that of contemporary anecdote for drawing conclusions about large-scale trends in
nineteenth-century publishing. Moreover, Eliot and his collaborators have now moved on to
the next phase of their project—a ‘series of micro studies of production’—which promises
further valuable evidence concerning publishing trends.93
While the construction and use of such publishing profiles is still in its infancy, it is
already clear that they can provide very valuable data about the general patterns of decision-
making within the trade. However, establishing the actual patterns of published output raises
as much as it answers the question of how publishers went about deciding what to publish,
and in what form.94 In this context, James Raven’s study of late eighteenth-century popular
novels provides a useful exemplar of how evidence from publishing profiles can be combined
with more direct evidence of the commercial practices of the book trade. In Raven’s study,
such evidence is drawn from a detailed study of the leading booksellers, from an assessment
of the impact of crucial legal and commercial developments, and from a wider examination
of the commodification of leisure in eighteenth-century Britain. Noting the ‘virtual
technological standstill in printing methods’ in this period, Raven relates the large-scale
changes in production revealed by his publishing profiles—most notably the very dramatic
upturn in publication totals from about 1780—chiefly to the fundamental changes in the
‘commercial orientation of the book trades’ in the second half of the eighteenth century.95
Although, as Raven observes, there is ‘still no full study of the commercial development of
the late eighteenth-century book trade’, the transitions he describes are becoming
increasingly well charted, and since they provide the immediate background for the early
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nineteenth century trade they are worth briefly recounting here.96
The roots of the changes Raven describes lay in the middle years of the eighteenth
century, when the commodification of middle-class leisure generated considerable demand
for printed matter. The book trade developed new genres to exploit the emerging markets—
most notably the novel and the magazine, but also including children’s leisure books, and
recreational books of natural philosophy and natural history97 —and also developed an
improved machinery for advertising and distributing books nationally. Nevertheless, the
supply of books continued to be severely limited by the restrictive practices of the small
coterie of leading booksellers who owned the bulk of copyrights. In an age increasingly
convinced of the benefits and virtues of free trade, however, this virtual monopoly was
undermined in 1774 by a crucial House of Lords ruling which denied the booksellers’ long-
standing claim that perpetual copyright was enshrined in common law. 98 Although the
leading booksellers did what they could to protect their erstwhile monopoly, the issuing of
cheap reprints of standard works, often in series, undermined their position, and contributed
to a major upheaval in the book trade in which the prices of standard works plummeted, and
the output of books radically increased.
The competitive commercial climate arising both from the growing demand for print
and from the removal of perpetual copyright thus served to encourage booksellers to be
innovative in seeking to exploit new markets. In particular, with their mainstay of relatively
expensive editions of standard works removed, many booksellers sought to cultivate new
works from which they could obtain the premium ensured by copyright protection. This
resulted not only in the development of new publishing genres, like anthologies, but also in
new departures in the physical format of books—notably a vogue for duodecimo ‘pocket
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books’—and in their marketing and distribution. Where older booksellers showed resistance
to change, there were plenty of new entrants in the trade who made fortunes by pursuing new
avenues. However, with a steady move away from collaborative publishing, in which the
heavy capital outlay was shared by a number of booksellers, the risks were high, and there
were some spectacular failures. Indeed, many of the older booksellers foundered in the new
competitive climate, and those who did survive into the nineteenth century, like Longmans
and Rivingtons, did so by successfully catering for the new markets, and by transforming
themselves from copy-holding retail booksellers, publishing chiefly in partnership, into
publishers in the modern sense, acting largely independently and relying on specialized
wholesalers and retailers to distribute their books. It is in the context of this increasingly
competitive commercial climate that we must consider the activity of the publishers for
science in early nineteenth-century Britain.
The publishers for science
In the book trade of early nineteenth-century Britain, then, publishers were more than
ever before innovative entrepreneurs, intent on creating and exploiting new markets with an
increasing range of literary products. Moreover, as several authors have demonstrated, it is
no coincidence that the romantic notion of the author as creative genius was being formulated
just at the moment when the publisher’s creative control over the production of books was on
the increase.99 As I have already noted, literary historians have made much progress in
addressing the creative role of publishers in the production of literature, 100 although much
still remains to be done in regard to the publishers of popular literature, or of literature by
authors not considered to be ‘great’. Within the history of science, however, the agency of
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early nineteenth-century publishers has barely begun to be addressed, and many basic
questions remain unanswered.
One important set of questions relates to the role commonly taken by the publisher as
the chief architect of the book as a physical object. While a few authors took an active hand
in such matters, most relied on their publishers at least to guide them, if not to be completely
responsible for overseeing the manufacturing of the book. Roger Stoddard makes the point
very strikingly when he states: ‘Whatever they may do, authors do not write books. Books
are not written at all. They are manufactured by scribes and other artisans, by mechanics and
other engineers, and by printing presses and other machines.’101 As I have already made
clear, the physical nature of the book was critically important to the reading experience, both
because of the implications for pricing and distribution, and because readers interpreted the
semiotics of the book as well as the text. The rapid diversification in the physical forms of
books and in the range of reading audiences during the first half of the nineteenth century if
anything gave publishers an increased role in determining the cultural meaning of the books
they produced.102
A more fundamental, although obviously related set of questions relates to the role of
the publisher in determining what texts appeared in print. For, while private and subscription
publication continued to be possibilities for authors whose manuscripts were turned down by
commercial publishers, the growing complexity of the book trade in the early nineteenth
century made it progressively more necessary that a book should have the backing of a
commercially motivated publisher if it were to succeed.103 Denied effectual access to the
advertising and distribution machinery of the trade, authors generally needed a shrewd
commercial assessment of their intended market in order to achieve any appreciable degree of
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success. Moreover, many of the more successful publishers were well ahead of their authors
in determining what kinds of books were marketable in the changing conditions of the book
trade, and they were quick not only to issue reprints of out-of-copyright works, but to
commission authors to write new works, to translate foreign works, or to anthologize, edit, or
plagiarize existing works. Indeed, it was often the case that the publisher’s role as literary
entrepreneur effectively subsumed the role of the author: the hack writer writing on
commission might easily find his or her activities utterly subservient to the editorial vision of
the publisher.104
Such a state of affairs was perhaps most likely to prevail in the case of the most
widely-circulated books of all—such standard trade-books as primers, school books, cheap
manuals, dictionaries, and encyclopaedias. The point is well illustrated by James Secord’s
study of the Newtonian System of Philosophy Adapted to the Capacities of Young
Gentlemen and Ladies (1761), a book issued anonymously by the pioneering publisher of
children’s literature, John Newbery, which passed through many editions and became
Newbery’s best-selling publication.105 Newbery was almost the archetype of the new
entrepreneurial publisher of the late eighteenth and early nineteenth centuries, and his success
was in no small degree founded on his capacity to anticipate the products that might succeed
in the changing market. In this sense, our continuing ignorance of the author of the
Newtonian System is not the historical problem it might seem to be, for a publisher of
Newbery’s type employed hack writers to produce a specified product, and expected them to
do so within strictly defined boundaries. Indeed, when the publishers Ogilvy and Sharpe
published revised editions of the work between 1794 and 1812, the name of the writer
employed in making what Secord reveals to have been quite extensive and significant
revisions was also omitted from the title-page. In this case, then, it was not until 1827—
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when James Mitchell was identified as the editor of the cheap reprint publisher Thomas
Tegg’s new edition of the work—that any author’s name appeared on a British edition. Such
a publishing history strikingly illustrates the extent to which publishers, rather than authors,
might be the primary determinants of widely distributed texts.106
This emphasis on the critical creative role of publishers in the early nineteenth
century is borne out by the small number of existing studies relating to early nineteenth-
century science publishing. Susan Sheets-Pyenson, for instance, begins her excellent study of
The Naturalist’s Library (1833–43) by insisting that ‘[p]ublishers and printers merit attention
not only because they acted as midwives in the creative process of bringing forth periodicals
and books, but also because they made decisions about what forms of scientific literature
could survive in the marketplace’.107 They can, she claims, be seen as ‘merchants or brokers
in scientific ideas’. Sheets-Pyenson’s study reveals that it was the Edinburgh printer and
engraver, William Home Lizars, who was the originator of the Naturalist’s Library, and the
key agent behind its production. Sir William Jardine, whose name is most commonly
associated with the venture, was brought in by Lizars as his collaborator, but it was Lizars
who masterminded what was a daring experiment in adapting the new technologies and
practices of book production to create a new kind of literary product, and it was his astute
publishing strategy which was chiefly responsible for the success of the series—the more so
as it came into competition with imitators.
The often critical role of entrepreneurial publishers in scientific publishing also
emerges in Sheets-Pyenson’s work on the publication of early nineteenth-century scientific
periodicals. 108 This is the area of scientific publishing on which most scholarly attention has
been focused. Indeed, the only scientific publisher of the early nineteenth century to receive
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extensive historical treatment is Richard Taylor, whose activity as a publisher (rather than as
a printer) was chiefly confined to the several scientific periodicals which he issued, most
notably the Philosophical Magazine and the Annals and Magazine of Natural History.109 As
W. H. Brock and A. J. Meadows show, Taylor and his illegitimate son William Francis were
primarily responsible for developing these best-known of Victorian science journals,
cultivating their own scientific interests and their extensive scientific acquaintance in the
process. Nor were they untypical in this. Brock observes that of the 535 British science
periodicals listed in the Waterloo Directory of Victorian Periodicals, sixty-four percent were
issued commercially, rather than by scientific or learned societies, and not a few were begun
by publishers with at least one eye to profit.110 Nevertheless, only a handful of these
commercial speculators have received historical attention, and much remains to be done.111
While science journals were clearly of considerable importance in the early
nineteenth century, it is striking that with very few exceptions, the publishers responsible for
the vast output of books on scientific subjects have received no attention from historians of
science.112 Indeed, beyond a few well-known names of those responsible for publishing
some of the ‘great’ books of early nineteenth-century science—perhaps most notably John
Murray who published for both Lyell and Darwin113 —it would be difficult even to identify
the leading publishers of early nineteenth-century science books. A brief examination of the
imprints of books listed in the English Catalogue of Books for 1837 provides a striking
demonstration of this (see Table 1). The figures must be treated with caution, since the
sample is skewed in several different ways. Most obviously, it is a catalogue of books
published in London, and thus significantly excludes important publishers in Glasgow and
Edinburgh, like William Collins and W. & R. Chambers. In addition, the Publishers’
Circular, from which the data are drawn, did not provide either a full or a representative
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sample of publications.114 Yet, even with these caveats, the analysis reveals some interesting
features. Firstly, it is notable that of the eleven publishers responsible for over two-thirds of
the 413 books on scientific subjects listed, not one has been the subject of extensive
consideration within the history of science. Indeed, almost half the number (Samuel Highley,
Simpkin, Marshall & Co., W. S. Orr & Co., James Ridgway, and Hippolyte Baillière) are not
even included in the DNB.115 Secondly, and perhaps more startling, is that almost one third
of the books listed were published by Longman & Co. Of course, Longmans were dominant
in the trade as a whole, with approximately 13% of titles listed, but it is clear that the
dominance of Longmans in regard to scientific subjects was on a different scale.116 Even
allowing for sampling error, this dominance strikingly illustrates the extent to which the
decision-making processes of certain of the publishing entrepreneurs of the period could have
large-scale effects on the place of science in the prevailing culture. What such effects might
have been is, of course, a question which awaits further study.
Table 1. Imprints of books on scientific subjects from the English Catalogue of Books,
September 1837 to December 1838
Publisher Medicine &
surgery
Natural history,
botany,
agriculture, &c.
Science,
including
metaphysics,
physics, &c.
Total
Longman & Co. 60 42.0% 53 36.6% 19 15.2% 132 32.0%Samuel Highley 21 14.7% 5 3.4% 0 0.0% 26 6.3%
John Murray 2 1.4% 5 3.4% 13 10.4% 20 4.8%
Simpkin, Marshall & Co. 3 2.1% 2 1.4% 13 10.4% 18 4.4%
J. W. Parker 0 0.0% 5 3.4% 11 8.8% 16 3.9%
W. S. Orr & Co. 0 0.0% 9 6.2% 5 4.0% 14 3.4%
G. B. Whittaker & Co. 5 3.5% 2 1.4% 5 4.0% 12 2.9%
James Ridgway 0 0.0% 11 7.6% 0 0.0% 11 2.7%
John Van Voorst 0 0.0% 11 7.6% 0 0.0% 11 2.7%
John Churchill 9 6.3% 1 0.7% 0 0.0% 10 2.4%
Hippolyte Baillière 7 4.9% 1 0.7% 2 1.6% 10 2.4%
Others 36 25.2% 40 27.6% 57 45.6% 133 30.3%
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143 100%
145
100%
125
100% 413 100%
TOTAL
Perhaps contrary to expectations, the published and manuscript resources available
for research relating to early nineteenth-century publishers are very extensive. In addition to
contemporary accounts and reminiscences,117 there is a growing collection of reference
works which provide important information,118 and an invaluable finding guide to the
extensive publishers’ archives which exist.119 Moreover, even without the aid of archival
sources, much can still be learned about a publisher’s activities from book trade sources an
from bibliographical databases of the sorts discussed in this article. The problem has not
been a shortage of sources, but a reluctance on the part of historians of science to allow
publishers the historical significance which they undoubtedly have. Moreover, it is only as
individual publishers become the subjects of historical study that we can hope to provide an
assessment of the place of different kinds of science publishing in the book trade as a
whole.
d
uthority of science.
120
The evidence quoted above suggesting an increasing market share for books on
natural subjects during the first part of the nineteenth century, clearly raises an important
question about the role of publishers in both reflecting and contributing to the increasing
cultural a
Fully accepting the role of the book-trade in creating the audience relations that are so
distinctive of science has wide-reaching implications for the practice of history of science.
Firstly, it contributes towards a de-centring of the leading practitioners of science, bringing
into focus a far larger cast of characters on whom science depended. Thus, attention must
now also be paid to the publishers, motivated by their own commercial and ideological
concerns, who were chiefly responsible for devising new genres of scientific publication, and
for developing and exploiting new reading audiences. Secondly, it places the development of
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science into its proper commercial context, serving to show that the success of science was
dependent on successful marketing, as much as on successful rhetoric.
SCIENTIFIC AUTHORSHIP
But a defence of popular science is not to be considered an argument for the
mass of productions which go by that name ... In nineteen cases out of twenty
they are the work of persons who, having themselves learnt Natural
Philosophy in six lessons, profess to teach it in half-a-dozen—who fill their
small phials from another’s bottle and adulterate what they steal—who render
science easy by suppressing difficulties instead of explaining them, and who
keep to its shallows less from the fear of advancing beyond the pupil’s depth
than of being detected in wading out of their own.
Whitwall Elwin, ‘Popular science’ (1849)121
I have left my discussion of the authors of scientific books until last partly because
historians of science have often been concerned with authors almost to the exclusion of
readers and publishers. However, approaching authors from the perspective of readers and
publishers raises a whole range of questions which we have barely begun to address. For, it
brings clearly into focus the fact that scientific authors were deeply embedded in a network
of trade relationships which had substantial implications for the practice of authorship. This
was more so in early nineteenth-century Britain than it had ever been before. The changes in
the book trade which took place in the eighteenth century had served to establish for the first
time a clearly defined profession of authorship, based increasingly on commercial payment,
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and becoming increasingly independent of the older traditions of patronage. 122 The
continuing expansion of print culture in the early nineteenth century only served to increase
the status and power of authors, as publishers vied for their services in creating new products.
It is only by situating scientific authors and their writings within this context that we can
fully explore their role in the making of science.
Authors for books on science
Thinking about scientific writing from the perspective of the emerging profession of
authorship raises the important question of who was actually writing about nature in early
nineteenth-century Britain. Most of what has been written about scientific authors in this
period has been written about scientific practitioners who for various reasons chose to write.
However, only a little reflection reminds us that many of those who wrote on science were
not scientific practitioners. The range of such individuals was considerable. They included
hack writers, like those employed to prepare elementary and reference works, or the writers
and compilers of the myriad ‘improving’ miscellanies which became increasingly popular
from the 1820s. There were more fashionable authors employed to write science for the
growing middle-class leisure market—a few well known to historians of science, like Mary
Somerville and Jane Marcet, while many others remain obscure. There was also a growing
band of reviewers—rarely practitioners of science—who were responsible for presenting
synoptic reviews of new works on scientific subjects in the burgeoning weeklies and
monthlies of the general and religious press. Increasingly, too, professional journalists came
to report on science in the daily, and more particularly, the weekly press, especially after the
activities of the British Association for the Advancement of Science achieved the status of
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news in the 1830s.
The relevance of such authors to the history of science was noted many years ago by
Steven Shapin and Arnold Thackray, who, in their classic article on prosopography, noted
that only a ‘very small proportion’ of those who had published a scientific paper, book, or
pamphlet had hitherto concerned historians of science. Their conviction was that in seeking
to identify the members of the scientific community in nineteenth-century Britain, we ‘cannot
… start with names known to us through their science’, but must first ‘find out who published
science, then assess the intellectual and cultural significance of their association with the
enterprise of natural knowledge.’123 Yet, notwithstanding an increasing number of studies of
individual scientific authors, we still lack the prosopographical perspectives advocated by
Shapin and Thackray. Indeed, this is not a problem peculiar to scientific authorship. More
generally, despite a number of useful studies of nineteenth-century authorship, Richard
Altick’s analysis of the social origins, education, and occupations of 1,100 nineteenth-century
British writers remains the only significant attempt at a prosopographical study.124 Until a
more systematic survey of those involved in scientific authorship has been made, many
questions will inevitably remain unanswered. One indication of how this might be achieved
comes from the work of Peter and Ruth Wallis, whose biobibliography of eighteenth-century
British mathematical authors includes extensive indexes of the places where authors lived or
worked, their dedicatees, their occupations, and their educational institutions, together with
indexes of printers and publishers and of the places of publication. Although the Wallises do
not themselves carry through the prosopographical analysis which these indexes make
possible, it is clear that such a study, based on their systematic bibliographical research,
would yield remarkable insights into the nature of mathematical authorship in the period.125
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Despite the lack of prosopographical perspectives, some headway in exploring the
dramatis personae of nineteenth-century science writing is nevertheless being made. One
particularly fruitful area has been the activity of women in scientific authorship. As Margaret
Rossiter has pointed out, the recent attention on the history of women in science has led to an
increased interest in the history of scientific communication. 126 This interest has found
expression in a growing number of case studies, which demonstrate not only that scientific
authorship constituted an important and hitherto neglected form of women’s participation in
science, but, equally interesting, that women science writers were active interpreters of
specialist knowledge, ‘retelling the story of science’ in discourses that were often different
from, or even counter to, those of the gentlemanly specialists.127 Similar perspectives have
also been developed in the well-established field of ‘literature and science’, and there are
now numerous valuable studies of the involvement of prominent literary authors in
reformulating the discourse of science.128 Yet, with a few exceptions, those working in this
area have largely ignored the work of those writers on science who were not either well-
known literary authors or well-known scientific practitioners.
There is, however, a growing recognition that the activities and concerns of a wider
range of authors on scientific subjects need to be scrutinized, if the place of science in
Victorian culture is to be more adequately understood. In particular, historians are
increasingly aware of the importance of those historically invisible writers on science—
professional writers, hacks, and journalists—who were responsible for many of the most
widely circulated publications. Pointing out that ‘[p]rofessional scientists … account for
only a small portion of the works of Victorian popularizers of science’, Bernard Lightman
argued in an important recent article that the non-professional scientific popularizers who
wrote for a mass market in the late nineteenth century, ‘may have been more important than
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the Huxleys and Tyndalls in shaping the understanding of science in the minds of a reading
public composed of children, teenagers, women and nonscientific males.’129 Lightman
himself provides a useful analysis of several late nineteenth-century authors of popular
science books, demonstrating that their vision of science was by no means the same as that of
the small coterie of scientific practitioners who form the chief focus of research, but he
concludes by noting that we need ‘to know far more about how science was popularized
during the Victorian period in magazines, journals, textbooks, children’s literature,
encyclopaedias, and newspapers.’130
Of these more widely circulated publications, it is the authors, and more especially
the editors, of popular scientific periodicals who have received most attention, with valuable
studies by Susan Sheets-Pyenson and W. H. Brock.131 By comparison, the authors and
compilers of articles and reviews on scientific subjects in more general magazines and
miscellanies have remained largely unknown. Yet, as we have seen, many of these
publications had massive circulation figures, and their importance is difficult to overestimate.
Indeed, while few would dispute the enormous significance of Robert Chambers’s best-
known publication, his anonymous Vestiges of the natural history of creation, it is interesting
to speculate whether his literary labours as editor for over a quarter century of Chambers’s
Edinburgh Journal, did not ultimately have a greater impact on the scientific views of the
Victorian reading public, more than 50,000 of whom regularly bought his journal.132
Particularly illuminating in this regard has been Adrian Desmond’s recent work on those
radical artisans who engaged science in a propaganda war against religion in some of the
more extreme working-class journals of the 1830s and 1840s. Yet, as Desmond himself
observes, the work of the vast body of less extreme but more widely read radical journalists
remains largely unconsidered.133 More generally, the development in the early nineteenth
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century of scientific journalism—notably the reporting of scientific meetings and discoveries
in the new weekly literary journals like the Literary Gazette and the Athenaeum—is an area
where little work has yet been carried out, though its growing importance was obvious to
contemporaries.134
In regard to the non-specialist authors of books on scientific subjects, one area which
has received some attention relates to the authors of those books intended for fashionable,
middle-class audiences.135 Yet, important as these undoubtedly were, there is a pressing
need to consider the authors of the often far more widely circulated books intended
increasingly large lower middle-class, working-class, and juvenile audiences. One such
author, the Scottish schoolteacher and widely read scientific writer Thomas Dick, has been
the subject of a recent study by W. J. Astore. Astore shows that the vision of science which
Dick developed in his scientific works was profoundly shaped by a ‘doxological’ theology of
nature distinctive of the evangelical culture to which he belonged. Strongly opposed to any
separation of the practice of science from the practice of Christian piety, Dick was concerned
to counteract what he considered to be a secularizing trend in contemporary gentlemanly
science. Moreover, despite some censure of his more idiosyncratic views, Dick’s works were
widely recommended by the evangelical press, and in several cases achieved remarkable
circulation figures.
for
136
Rather more extreme is the case of Richard Phillips, the educational publisher and
political radical who issued, and had a hand in writing or commissioning many of the most
successful elementary textbooks of the first half of the nineteenth century—books which sold
in tens and even hundreds of thousands. What is striking, considering that many of these
textbooks were on scientific subjects, is that Phillips was an outspoken critic of Newtonian
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physics, and published extensively on his own anti-Newtonian theory. Moreover, such views
permeated at least some of his elementary works. His Million of Facts (1832), for instance,
referred to gravity as a ‘gratuitous hypothesis’ and dismissed the gravitational theory of the
tides as ‘that credulous philosophy’ which maintained ‘the execrable gossip of the dark ages
upon lunar attraction!’137 While Phillips is undoubtedly a somewhat exceptional case, it is
nonetheless clear that the authors of elementary or widely circulated scientific books in the
period were very far from presenting a unified vision of science, and that a thorough-going
analysis of such non-specialist authors of widely distributed books would provide important
new perspectives on the contested place of science in contemporary culture.
Moreover, while many early nineteenth-century authors agreed on the value of
science—if diverging over the substance or meaning of its true doctrines and practices—there
were clearly others who disregarded or disputed its objects and findings, in part or in whole.
Viewed from the perspectives of both readers and publishers, many of these authors gain a
significance which they have not hitherto been accorded. Those who compiled astrological
or magical almanacs and chapbooks, for instance, like those who reworked pre-scientific
herbals, or those who wrote the innumerable tracts and books of Christian devotion which
developed largely non-scientific visions of nature, were responsible for some of the most
widely read publications of the period. In the 1820s, approximately half a million stamped
almanacs were sold annually (one for every twenty-five people), and in 1827 alone the
Society for the Promotion of Christian Knowledge alone issued some one and a half million
tracts.138 Futhermore, such publications were taken seriously by contemporary exponents of
scientific education, like the Society for the Diffusion of Useful Knowledge which mounted a
campaign to supplant traditional ‘superstitious’ almanacs with their own rational and
scientific British Almanac. 139 As this example illustrates, the development of scientific
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authority in the period was closely linked with the marginalization of non-scientific views. A
full exploration of the development of scientific authorship in nineteenth-century Britain will
thus include an exploration of such non-scientific forms of writing about nature.
Authorship and the man of science
Thus far, I have written as though the professional writers who wrote on scientific
subjects were easily distinguishable from practitioners of science who were also scientific
authors. This was certainly increasingly the case later in the nineteenth century, as both
science and authorship became increasingly professionalized.140 However, in the early
nineteenth century, many of those who were professional writers on science were to some
extent involved in scientific practice, and many of those who were scientific practitioners
earned a significant part of their income from writing. This raises a second set of questions
about scientific authorship. Firstly, we need to establish how financially important scientific
writing was to practitioners of science at a time when the number of full-time paid positions
directly or indirectly linked with the possession of scientific knowledge was very limited.
Secondly, it is important to consider the effect such literary work had on their reputations as
men of science, and to explore the complex interrelations between the persona of the man of
letters and that of the man of science.
Recent moves away from the rather essentialist approach to scientific
professionalization which gave primacy to the emergence (or non-emergence) of university
and state-sponsored scientific posts have not, as yet, resulted in a thorough-going
reassessment of the forms of financial remuneration linked with the possession of scientific
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knowledge in the early nineteenth century.141 However, even a cursory glance at the lives
and letters of early nineteenth-century men of science makes clear that literary work was—at
least in terms of income—of considerable significance for many of them. In some cases such
work was the principal source of a practitioner’s income. More often, it supplemented
income coming from numerous other sources, ranging from university chairs and college
fellowships, to itinerant lecturing, medical practice, or various kinds of work for societies and
museums. That it was nonetheless important, however, should not surprise us. Authorship
had been an increasingly valuable source of income for scientific practitioners during the
course of the eighteenth century, as the market for books on natural subjects expanded. 142
With the growing competition for new literary products in the late eighteenth and early
nineteenth century, moreover, there was a rapid increase in the demand for able authors, and
the potential rewards rose accordingly. As Walter Scott famously demonstrated, those
authors whose works were most in demand began to be able to command unprecedented
sums from publishers.143
Moreover in an age which placed a premium on educational and
‘improving’ books, men of science were not the least beneficiaries from these developments,
finding themselves in demand for a burgeoning range of writing. Nevertheless, the nature of
the financial and other arrangements between men of science and their publishers remain
shrouded in obscurity.
One of the few scientific authors of the early nineteenth century whose literary
labours have received detailed consideration in this regard is David Brewster, whose career
nicely illustrates the increasing range of scientific writing available to the man of science in
this period.144 Having been obliged to abandon his intended career as a Church of Scotland
minister because of his nervous disposition, Brewster supported himself over many years by
writing and editing, which he combined at various times with income from private tuition,
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invention, services to scientific societies, occasional prizes, and (much later) a government
pension.145 Only in 1838, at the age of 56, did he finally obtain an established post at St.
Andrew’s University. As W. H. Brock has shown, Brewster, like many of his
contemporaries, particularly benefited from the burgeoning range of early nineteenth-century
periodicals, becoming a regular reviewer for the heavy quarterlies and an editor of several of
the new scientific magazines. The former were a particularly important source of income for
authors in the early nineteenth century, the rewards of contributing rising dramatically as the
commercial importance of such journals increased. Moreover, as Richard Yeo has shown,
scientific authors who could handle the specialist subject matter while still maintaining a
lively and attractive reviewing style were much in demand. Even the ‘heavy, clumsy’
Brewster was commissioned to write 29 reviews for the Edinburgh Review alone between
1833 and 1844, earning himself, at the lowest rate of pay, more than £600 from this one
journal, and probably at least twice that.146
Another regular source of income for Brewster was his editorial work on a number of
the newly emerging commercial science journals. It was not until later in the century that the
number of such journals increased beyond a handful, and, with relatively small print-runs,
their rates of pay to contributors were considerably lower than the quarterlies. However,
their commercial success clearly depended on the contributions of scientific specialists, and
as a result they could represent a valuable source of income for scientific practitioners, both
as editors and contributors. As co-editors from 1819 of the quarterly Edinburgh
Philosophical Journal, for instance, Brewster and Robert Jameson were each paid a fee of
£226 per number, out of which they had to pay contributors. When Brewster subsequently
persuaded William Blackwood to produce a rival journal, the Edinburgh Journal of Science,
he was paid £100 or £115 per number, his contributors receiving 10 guineas per sheet (that is,
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16 octavo pages).147 Medical periodicals, of course, had a potentially rather larger readership
at this period, and the rewards of medical journalism could be proportionately greater. Even
then, few made a living entirely from medical journalism, although as editor of the Lancet,
Thomas Wakley demonstrated that it was possible, and the physician John Elliotson
reputedly increased his annual income from £500 to £1500 by writing clinical reports for
Wakley’s journal.148
In 1808, Brewster became involved with another literary venture typical of the age,
when he was appointed editor of the Edinburgh Encyclopaedia.149 Encyclopaedias were
works well suited to the high-priced upper middle-class book market of the early nineteenth
century, a fact which encouraged several publishers to risk the high capital investment
required. As well as the Edinburgh Encyclopaedia, Coleridge’s Encyclopaedia Metropolitana
and new editions of and supplements to the old-established Encyclopaedia Britannica gave
work to numerous men of science. Moreover, as Richard Yeo has shown, the editors of these
major British encyclopaedias of the early nineteenth century shifted their emphasis from the
classification of universal knowledge to the ‘presentation of detailed entries on scientific
disciplines by expert contributors’, a shift he associates with ‘the point of transition from
eighteenth-century natural philosophy to the emergence of modern scientific disciplines’.150
This growing demand for scientific expertise was of no little significance in inflating rates of
pay to startlingly high levels. When Blackwood’s Edinburgh rival, Archibald Constable,
bought up the copyright and stock of the Encyclopaedia Britannica in 1812, he commissioned
articles for a supplement to bring it more up to date. Among these were princely payments of
£1,000 each to the Edinburgh professors Dugald Stewart and John Playfair for articles on the
progress of philosophy and of mathematics and physics.151
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Encyclopaedias were not the only books in which the increasing value placed on
scientific expertise combined with the ever more competitive market to augment the income
of scientific authors. Educational works had long been one of the staples of the book trade,
and the growth of the educational market in the early nineteenth century gave them an added
premium.152 The disproportionate expansion of scientific education and the rapid changes
in scientific knowledge gave scientific authors a particular importance in this market. Even
where new textbooks were not required, there was, as Brewster discovered, work to be done
in editing standard works (like James Ferguson’s texts on astronomy and mechanics) or
translations of works by foreign authors (such as Euler and Legendre).153 Brewster also
benefited from the expanding market for fashionable works of science, contributing several
books to Lardner’s Cabinet Cyclopedia and Murray’s Family Library. Payment for such
works could again be generous. Murray’s average copyright payment for contributions to his
Family Library, for instance, was around £220, and the standard payment for the treatises of
the Society for the Diffusion of Useful Knowledge was reportedly £180.154
Those works
which were particularly popular could earn authors very considerable sums. Jane Marcet’s
Conversations on chemistry earned some £2329 for its author and her heirs between 1806 and
1865, and though Charles Darwin earned only £180 on the first edition of Origin of Species,
by his death in 1881 the book had brought him more than £2500.155
Considering the many possible sources of income from scientific writing, then, there
was clearly a living to be made from such work in the early nineteenth century.
Nevertheless, for all but the most successful, authorship was a perilous profession at this
period.156 While Brewster was an accomplished professional author, who funded his career
in science chiefly through his literary work, he was far from being enamoured of the
profession of letters. It is particularly interesting to reflect on the advice he gave his young
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protégé, James David Forbes, as Forbes considered his future career in 1830. Forbes had
suggested in a letter that he might attempt to earn his living as a scientific author. Brewster
replied: ‘I do not object to your making money by your writings, but I am sure that it would
be injurious to your happiness to rely on such a source for a permanent portion of your
income. The moment you do that you become a professional author, following the worst of
professions.’ Brewster thought that Forbes would do better to pursue a career in the law, as
being ‘perfectly compatible with the most ardent prosecution of science’.157
The financial insecurity of professional authorship was not its only potential pitfall.
As Brewster was quick to recognize, the scientific practitioner who was dependent on income
derived from scientific writing had to be particularly sensitive to the implications of such
work for his or her reputation as a practitioner. Brewster feared, for instance, that Forbes’s
desire to make a living by writing would impel him into premature publication, and would
consequently have disastrous implications for his scientific reputation. He explained: ‘A first
work clings to an author while he lives, and hence it is of great consequence that it be an
original work worthy of the status of science which he is destined to attain.’ Observing that
he would ‘object less to a system of meteorology than to an elementary treatise’, Brewster
continued: ‘I have no scruple in expressing my convictions that you are destined to do
something important in science, and under this conviction I am confident that there is no
object of ambition worthy of your pursuit, but that of original discovery.’ 158
The centrality of this concept of originality of ideas to the definition of scientific
genius in early nineteenth-century Britain made the position of the scientific author
significantly different from that of the writer of other types of literature. The Penny
Cyclopedia asserted that artistic genius, ‘seeking to exhibit its own ideal in due and
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appropriate forms … realises the infinite under finite types, and so creates the beautiful’;
scientific genius, it was stated, by contrast ‘seizes at once those hidden affinities which
otherwise do not reveal themselves, except to the most patient and rigorous application; and
as it were intuitively recognising in phenomena the unalterable and eternal, it produces
truth.’159 Thus, unlike the literary author, any scientific author wishing to exhibit genius had
to do so through originality of ideas (the discovery of truth), rather than originality of form
(the creation of beauty).160 Moreover, to be effective, such claims to originality had
increasingly, through the first few decades of the nineteenth century, to be made through the
medium of the publications of the learned societies. For the aspiring man of science, learning
to write within this genre was the prerequisite of success as a scientific author. Yet, as
Martin Rudwick has argued, the whole process of the writing of papers in this period—from
the initial drafting, to the process of revision between verbal presentation and publication—
still requires much attention.161
Not, of course, that all the writing of the successful man of science needed to embody
such originality of ideas. On the contrary, with the proliferation of different genres of
scientific publication in the early nineteenth century, scientific practitioners had to learn to
exploit a range of voices—to present a multi-faceted persona in which they were both
original and authoritative, exhibiting both genius and expertise. At a personal level, the
crucial issue was learning to employ the different facets of such a scientific persona at the
appropriate time to cultivate one’s reputation. This was a point well understood by the
physiologist, William Benjamin Carpenter, for whom authorship was an important source of
income during the early part of his career, and for whom the tensions between cultivating a
medical or scientific reputation and earning a living as a professional writer were particularly
acute. When, in his late twenties, Carpenter wrote four volumes of a Popular Cyclopaedia of
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Natural Science (1841–44) and a volume for W. & R. Chambers’s ‘Educational Course’, he
had them published anonymously. As he explained to Robert Chambers, this was necessary
since his reputation as an author was ‘rather professional than general’. He was, he
continued, ‘apprehensive of being ranked by the public as a mere book-maker’, since he had
‘a large volume on Human Physiology on the eve of publication’.162 Indeed, Carpenter had
both a scientific and a medical reputation to defend. Nor were these entirely compatible.
When, as a young man of 26, Carpenter had published his Principles of General and
Comparative Physiology (1839)—intended to meet what he perceived to be the need for a
work on the “underlying principles of physiological science”—he found that his reputation as
a scientific author hindered his medical practice.163 More generally, W. F. Bynum and Janice
Wilson have argued that for those pursuing a career in medicine, clinical practice was the
crucial yardstick by which they were judged. Notwithstanding this, however, they found
that, as a group, medical practitioners who became involved in editing medical periodicals
tended to be ambitious individuals, for whom a period of editorial work in their youth served
as a means of career advancement.164
Of course, an author whose reputation as a man of science had already been
established by oral and literary performances within the closeted world of the Metropolitan
societies might greatly benefit by publishing in a genre accessible to a wider audience. As
Richard Yeo has shown, for instance, the gentlemanly practitioners of science generally
viewed the opportunity to write for the leading reviews of the period as a valuable means of
disseminating and enforcing their views among a wider audience, and of increasing their
corporate status and authority. Moreover, notwithstanding the putatively anonymous nature
of nineteenth-century reviewing, authors of articles were often widely known, and personal
reputations could be enhanced through such writing. William Whewell, in particular, is
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shown by Yeo to have used this forum in the early 1830s to develop his ‘metascientific’
voice, and to consolidate his reputation as an ‘adjudicator of scientific developments’.
Furthermore, articles in the quarterlies were particularly important to scientific practitioners
since they had a ‘dual audience’: scientific books were not only being explained to a wider
lay readership, but were also being assessed by their authors’ peers. 165 This interplay of
esoteric and exoteric forms of writing in establishing scientific reputations was perhaps most
strikingly illustrated by the case of Thomas Young, the fate of whose vibration theory of light
had, according to Whewell, been sealed by the critical assessment of an ill-informed (and
anonymous) Henry Brougham, writing in the Edinburgh Review. Moreover, in a further
twist, Brougham’s ridicule of Young’s Philosophical Transactions papers apparently so
alarmed the entire book-trade that the bookseller who had offered Young a princely £1000
for the copyright of his Royal Institution lectures felt obliged to withdraw.166
As Yeo makes clear, Whewell’s contributions to the review journals were his ‘first
foray’ into a wider readership.167 By this date, Whewell had several Cambridge
mathematical textbooks to his name, and a large number of papers in learned journals, but
although he was well known as a man of science, it was his Bridgewater Treatise on
Astronomy and General Physics Considered with Reference to Natural Theology (1833)
which brought him to the attention of a wider public. Unlike his more specialist work, this
book was widely reviewed in the general literary and religious journals, and established for
him a reputation among a wider upper middle-class audience. Moreover, such a literary
reputation presented, as James Secord has shown, opportunities for the man of science to
enter into the social world of fashionable society.168 During the course of the London social
season, the latest fashionable books were discussed at the endless round of soirees,
conversazione, and dinner parties. In such a context, the successful scientific author could
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achieve unwonted celebrity status as a literary ‘lion’. Such fashionable attention clearly
served to increase the public profile both of the man of science, and of his science.
There is thus, of course, a close link between the individual reputation of scientific
authors, and the reputation of science itself, a consideration which brings us full circle to the
question with which we began—namely, how it was that science came to accomplish the
audience relation that it did in early nineteenth-century Britain. It has been the object of this
paper to show that the answer to that question must be based, at least in part, on an
understanding of the communication circuit of print in the period. As the first of the mass
media, print became in the nineteenth century, more than ever before, a crucial means by
which cultural authority was to be both achieved and contested. Scientific practitioners
realized this, and sought to use it to achieve their ends, although they were not alone in
sometimes being rather slow to become aware of new developments. Richard Yeo, for
instance, has argued persuasively that Robert Chambers’ anonymous evolutionary work,
Vestiges of the Natural History of Creation alerted scientists to their failure to enforce their
views among the new reading audiences, and provoked them into writing self-conscious
works of ‘popular science’ to enforce their claims to authority.169 Moreover, it is no surprise
that the book which alerted them to their failure to reach the new audiences was written by
one of the most successful popular publishers of the century.
CONCLUSION
What is the history of the book for? A plausible answer lies in the role played
by written and printed materials in the constitution of knowledge. The history
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of the book is consequential because it addresses the conditions in which
knowledge has been made and utilized.
Adrian Johns, The Nature of the Book 170
My purpose in this account has been to point towards some of the new insights which
would result from serious consideration of the communication circuit of print in relation to
early nineteenth-century science, and to demonstrate the practicability of such research. In
particular, I have argued that a new focus on what early nineteenth-century readers read
about nature—starting with a ground-level examination of the printed objects available to
them—would provide novel insights into the varied cultural topography in which science was
situated as one competing form of knowledge about nature. Such an approach does not
assume either the cultural legitimacy of science or the illegitimacy of other forms of natural
knowledge, but raises the question of how, and how far such legitimacy was achieved, as a
matter of historical contingency. Focusing on the reading experiences of contemporary
readers gives us a new means of gaining access to this contest for cultural authority. Instead
of seeing popularization from within the diffusionist model, a focus on actual readers requires
that we consider how power was exerted in enforcing and resisting knowledge claims.
Readers were not wholly constrained by the textual and formal strategies of authors and
publishers—they were active in making their own meanings, drawing on a wide range of
beliefs and practices about the nature and object of reading. Insofar as they became the
passive audience which scientists sought, therefore, they did so for complex reasons.
A new focus on the book-trade also promises important new insights into the manner
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in which nineteenth-century science achieved its extraordinary cultural authority. This is
most obviously the case because scientific authors were very heavily dependent on
commercial publishers in successfully managing print culture—that is, in creating books
which communicated the right messages to the right audiences. But publishers were not
merely the lackeys of scientific practitioners. They were also extremely important initiators
of publishing ventures in which scientific practitioners featured only secondarily, and often
not at all. As the creative agents behind vast numbers of popular trade books and periodicals,
they were primarily responsible for a large proportion of the printed matter on natural
subjects which contemporaries eagerly devoured. In a wider sense, too, the book trade was
fundamental to early nineteenth-century science, for it was the book trade which developed
the new mass medium publications on which the new audience relations definitive of science
were based. Once again, these developments were historically contingent, and depended on
the actions of individual entrepreneurs and ideologues who had particular interests at stake.
A final area for reassessment is scientific authorship, where the focus has hitherto
been primarily on the authorial strategies of leading scientific practitioners. Many of those
involved in writing on natural subjects, including on science, have not hitherto been
considered within the history of science, but an acknowledgement of their involvement
makes clear the extent to which the representation of science in early nineteenth-century
culture was not effected by practitioners alone. Indeed, the views of science promulgated by
many of the professional writers on the subject were far from congruent with those of the
practitioners themselves. Moreover, those practitioners involved in writing on science had a
far wider range of interests invested in authorship than has sometimes been supposed. A
more broadly based consideration of what it meant for a scientific practitioner to be an author
in the period—both in terms of the financial rewards, and in terms of personal reputation—
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will provide valuable new perspectives on the meaning of the texts they produced.
The invention of science in the early nineteenth century was, as we have seen, closely
connected with revolutionary changes in reading audiences. The growing body of literature
on the history of communication by print in this period, combined with the growing
bibliographical control over the abundant primary resources, offers ample opportunity to
explore this significant development. My purpose in this essay has been to draw together
some of the available materials, and to suggest some possible avenues for exploration. The
task ahead is both vast and daunting, but its contribution to the subject is potentially of the
first importance.
ACKNOWLEDGEMENTS
This paper has benefited from comments made by those who heard an earlier version read at
the 3rd British-North American History of Science Meeting (‘Crossing Boundaries’), held in
the University of Edinburgh, 23–26 July 1996. I am especially grateful to Sam Alberti,
Geoffrey Cantor, Gowan Dawson, Silvia De Renzi, Patricia Fara, Aileen Fyfe, Marina
Frasca-Spada, Nick Hopwood, Leslie Howsam, Nick Jardine, Adrian Johns, Elisabeth
Leedham-Green, Eugenia Roldán-Vera, Jim Secord, and Roberta Topham for their helpful
suggestions on earlier drafts. Part of the research on which this paper is based was
generously funded by the Leverhulme Trust, through their programme of Special Research
Fellowships.
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REFERENCES
Adams, T. R., and Barker, N. (1993) ‘A New Model for the Study of the Book’, in N. Barker
(ed.), A Potencie of Life: Books in Society (London: British Library), pp. 5–43.
Allen, D. E. (1978) The Naturalist in Britain: A Social History, Harmondsworth: Penguin.
Allen, D. E. (1996) ‘The Struggle for Specialist Journals: Natural History in the British
Periodicals Market in the First Half of the Nineteenth Century’, Archives of Natural History
23, 107–23.
Alston, R. C. (1991) Handlist of Library Catalogues and Lists of Books and Manuscripts in
the British Library Department of Manuscripts, London: Bibliographical Society.
Alston, R. C., Robinson, F. J. G., and Wadham, C. (1983) A Check-list of Eighteenth-century
Books Containing Lists of Subscribers Incorporating Exploitation of the Eighteenth-century
Short Title Catalogue File on BLAISE, Newcastle: Avero.
Altholz, J. L. (1989) The Religious Press in Britain, 1760-1900, New York and London:
Greenwood Press.
Altick, R. D. (1957) The English Common Reader: A Social History of the Mass Reading
Public, 1800–1900, Chicago and London: University of Chicago Press.
Altick, R. D. (1962) ‘The Sociology of Authorship: The Social Origins, Education, and
58
Page 60
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 60/111
Occupations of 1,100 British Writers, 1800–1935’, Bulletin of the New York Public Library
66, 389–404.
Altick, R. D. (1989) ‘English Publishing and the Mass Audience in 1852’, in Writers,
Readers, and Occasions: Selected Essays on Victorian Literature and Life (Columbus: Ohio
State University Press), pp. 141–58, 340–4.
Anderson, K. (1999) ‘The Weather Prophets: Science and Reputation in Victorian
Meteorology’, History of Science 37, 179–216.
Anderson, P. J., and Rose, J., eds (1991) British Literary Publishing Houses, 1820–1880, vol.
106 of Dictionary of Literary Biography, Detroit and London: Gale Research.
[Anon] (1837) ‘New and Improved Edition of Dr. Chalmers’ Works’, Congregational
Magazine n s. 13, 33–42.
Aspinall, A. (1946) ‘The Circulation of Newspapers in the Early Nineteenth Century’,
Review of English Studies 22, 29–43.
Astore, W. J. (1995) ‘Observing God: Thomas Dick (1774–1857), Evangelicalism and
Popular Science in Victorian Britain and Antebellum America’, Ph.D. diss., University of
Oxford.
Astore, W. J. (forthcoming) Observing God: Thomas Dick (1774–1857), Evangelicalism and
Popular Science in Victorian Britain and Antebellum America, Aldershot: Ashgate.
59
Page 61
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 61/111
Axon, W. E. A. (1888) Stray Chapters in Literature, Folk-lore, and Archaeology, Manchester
and London: Heywood.
Baker, William (1992) The Early History of the London Library, Lewiston, Queenston, and
Lampeter: Edwin Mellen Press.
Barber, L. (1980) The Heyday of Natural History, 1820–1870, London: Jonathan Cape.
Barnes, J. J. (1964) Free Trade in Books: A Study of the London Book Trade since 1800,
Oxford: Clarendon Press.
Barton, R. (1998) ‘Just Before Nature: The Purposes of Science and the Purposes of
Popularization in some English Popular Science Journals of the 1860s’, Annals of Science
55, 1–33.
Beer, G. (1990) ‘Science and Literature’, in R. C. Olby, G. N. Cantor, J. R. R. Christie, and
M. J. S. Hodge (eds), Companion to the History of Modern Science (London and New York:
Routledge), pp. 783–98.
Benjamin, A., Cantor, G., and Christie, J. R. R., eds (1986) The Figural and the Literal:
Problems of Language in the History of Science and Philosophy, 1630–1800, Manchester:
Manchester University Press.
Benjamin, M. (1991) ‘Elbow Room: Women Writers on Science, 1790–1840’, in M.
60
Page 62
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 62/111
Benjamin (ed.), Science and Sensibility: Gender and Scientific Enquiry (Oxford: Basil
Blackwell), pp. 27–59.
Bennett, A., ed. (1995) Readers and Reading, London and New York: Longman.
Bennett, S. (1976) ‘John Murray’s Family Library and the Cheapening of Books in Early
Nineteenth-century Britain’, Studies in Bibliography 29, 139–66.
Bennett, S. (1982) ‘Revolutions in Thought: Serial Publication and the Mass Market for
Reading’, in J. Shattock and M. Wolff (eds), The Victorian Periodical Press: Samplings and
Soundings (Leicester: Leicester University Press; Toronto: University of Toronto Press), pp.
225–257.
Besson, A., ed. (1990) Thornton’s Medical Books, Libraries and Collectors: A Study of
Bibliography and the Book Trade in Relation to the Medical Sciences, 3rd. ed., Aldershot,
Hants. and Brookfield, Vermont: Gower.
Biography Database, 1680–1830, CD-ROM, Newcastle-upon-Tyne: Avero Publications,
1995.
Black, A. (1997) ‘Lost Worlds of Culture: Victorian Libraries, Library History and Prospects
for a History of Information’, Journal of Victorian Culture 2, 95–112.
Boase, F. (1892–1921) Modern English Biography: Containing many Thousand Concise
Memoirs of Persons who have Died since the Year 1850, 6 vols, Truro: Netherton and Worth.
61
Page 63
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 63/111
Bolton, H. C. (1897) A Catalogue of Scientific and Technical Periodicals, 1665–1895,
Together with Chronological Tables and a Library Check-list, 2nd ed., Washington:
Smithsonian Institution.
Bonham-Carter, V. (1978) Authors by Profession, vol. 1, From the Introduction of Printing
until the Copyright Act 1911, London: Society of Authors.
Bostetter, M. (1985) ‘The Journalism of Thomas Wakley’, in J. H. Wiener (ed.), Innovators
and Preachers: The Role of the Editor in Victorian Britain (Westport, Ct. and London:
Greenwood Press), pp. 275–92.
Bracken, J. K., and Silver, J., eds (1995) The British Literary Book Trade, 1700-1820, vol.
154 of Dictionary of Literary Biography, Detroit and London: Gale Research.
Brock, W. H. (1980) ‘The Development of Commercial Science Journals in Victorian
Britain’, in A. J. Meadows (ed.), Development of Science Publishing in Europe (Amsterdam:
Elsevier Science Publishers), pp. 95–122.
Brock, W. H. (1984) ‘Brewster as a Scientific Journalist’, in A. D. Morrison-Low and J. R. R.
Christie (eds) ‘Martyr of Science’: Sir David Brewster 1781–1868 (Edinburgh: Royal
Scottish Museum), pp. 36–42.
Brock, W. H., and MacLeod, R. M., eds (1980) Natural Knowledge in Social Context: The
Journals of Thomas Archer Hirst, FRS, London: Mansell.
62
Page 64
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 64/111
Brock, W. H., and Meadows, A. J. (1998) The Lamp of Learning: Taylor & Francis and the
Development of Science Publishing, 2nd ed., London: Taylor & Francis.
Brewer, J. (1997) The Pleasures of the Imagination: English Culture in the Eighteenth
Century, London: HarperCollins.
Briggs, Asa, ed. (1974) Essays in the History of Publishing: In Celebration of the 250th
Anniversary of the House of Longman, 1724−1974, London: Longman.
Broks, P. (1996) Media Science Before the Great War, Basingstoke: Macmillan.
Brown, P. A. H. (1982) London Publishers and Printers, c.1800-1870, London: British
Library.
Brown, S. J. (1982) Thomas Chalmers and the Godly Commonwealth in Scotland, Oxford:
Oxford University Press.
Burkhardt, F., et al., eds (1985–99) The Correspondence of Charles Darwin, 11 vols,
Cambridge: Cambridge University Press.
Burnett, J., Vincent, D., and Mayall, D., eds (1984–9) The Autobiography of the Working
Class: An Annotated, Critical Bibliography, 3 vols, Brighton: Harvester.
Bynum, W. F., Lock, S., and Porter, R., eds (1992) Medical Journals and Medical
63
Page 65
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 65/111
Knowledge: Historical Essays, London and New York: Routledge.
Bynum, W. F., and Wilson, J. C. (1992) ‘Periodical Knowledge: Medical Journals and their
Editors in Nineteenth-century Britain’, in W. F. Bynum, S. Lock, and R. Porter (eds),
Medical Journals and Medical Knowledge: Historical Essays (London and New York:
Routledge), pp. 29–48.
Cannon, W. F. (1960) ‘The Problem of Miracles in the 1830’s’, Victorian Studies 4, 5–32.
Cantor, G. N. (1983) Optics after Newton: Theories of Light in Britain and Ireland, 1704–
1840, Manchester: Manchester University Press.
Cantor, G. (1989) ‘The Rhetoric of Experiment’, in D. Gooding, T. Pinch, and S. Schaffer
(ed.), The Uses of Experiment: Studies in the Natural Sciences (Cambridge: Cambridge
University Press), pp. 159–80.
Carpenter, J. E., ed. (1888) Nature and Man: Essays Scientific and Philosophical, London:
Kegan Paul, Trench.
Chartier, R. (1989) ‘Texts, printings, readings’, in L. Hunt (ed.), The New Cultural History
(Berkeley and London: University of California Press), pp. 154–75.
Chartier, R. (1994) The Order of Books: Readers, Authors, and Libraries in Europe between
the Fourteenth and Eighteenth Centuries, trans. L. G. Cochrane, Cambridge: Polity Press.
64
Page 66
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 66/111
Cohen, I. B. (1985) Revolution in Science, Cambridge, MA and London: Belknap Press.
Cole, W. A. (1988) Chemical Literature 1700–1860: A Bibliography with Annotations,
Detailed Descriptions, Comparisons, and Locations, London: Mansell.
Collins, A. S. (1928) The Profession of Letters: A Study of the Relation of Author to Patron,
Publisher, and Public, 1780–1832, London: G. Routledge & Sons.
Collison, R. (1966) ‘Samuel Taylor Coleridge and the “Encyclopedia Metropolitana”’,
Journal of World History 9, 751–67.
Cook, T. H. (1976) ‘Science, Philosophy and Culture in the Early Edinburgh Review 1802–
1929’, Ph.D. diss., University of Pittsburgh.
Cooney, S. M. (1977) ‘Publishers for the People: W. & R. Chambers: The Early Years,
1832–1850’, Ph.D. diss., Ohio State University.
Cooper, B. P., and Murphy, M. S. (2000) ‘The Death of the Author at the Birth of Social
Science: The Cases of Harriet Martineau and Adolphe Quetelet’, Studies in the History and
Philosophy of Science 31, 1–36.
Cooter, R. (1989) Phrenology in the British Isles: An Annotated, Historical Biobibliography
and Index, Metuchen, N.J., & London.
Cooter, R., and Pumfrey, S. (1994) ‘Separate Spheres and Public Places: Reflections on the
65
Page 67
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 67/111
History of Science Popularization and Science in Popular Culture’, History of Science 32:
237–67.
Coral, Lenore (1995) ‘Towards the Bibliography of British Books Auction Catalogues, 1801–
1900’, Papers of the Bibliographical Society of America 89, 419–254.
Cox, H., and Chandler, J. E. (1924) The House of Longman: With a Record of their
Bicentenary Celebrations, London: Longmans.
Cross, N. (1984) The Royal Literary Fund, 1790-1918: An Introduction to the Fund's History
and Archives with an Index of Applicants, London: World Microfilms.
Cross, N. (1985) The Common Writer: Life in Nineteenth-century Grub Street, Cambridge:
Cambridge University Press.
Cunningham, A (1988) ‘Getting the Game Right: Some Plain Words on the Identity and
Invention of Science’, Studies in History and Philosophy of Science 19, 365–89.
Cunningham, A., and Williams, P. (1993) ‘De-centring the “Big Picture”: The Origins of
Modern Science and the Modern Origin of Science’, British Journal for the History of
Science 26, 407–32.
Curwen, H. (1873) A History of the Booksellers: The Old and New, London: Chatto and
Windus.
66
Page 68
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 68/111
Darnton, R. (1990a) ‘What is the History of Books?’, in The Kiss of Lamourette: Reflections
in Cultural History (New York and London: W. W. Norton & Co.), pp. 107–35.
Darnton, R. (1990b) ‘First steps toward a history of reading’, in The Kiss of Lamourette:
Reflections in Cultural History (New York and London: W. W. Norton & Co.), 154–87.
Davidoff, L., and Hall, C. (1994) Family Fortunes: Men and Women of the English Middle
Classes, 1780–1850, London: Routledge.
Dear, P., ed. (1991) The Literary Structure of Scientific Argument: Historical Studies,
Philadelphia: University of Pennsylvania Press.
Desmond, A. (1987) ‘Artisan Resistance and Evolution in Britain, 1819–1848’, Osiris 2nd
Ser. 3, 77–110.
Desmond, A. (1989) The Politics of Evolution: Morphology, Medicine, and Reform in
Radical London, Chicago and London: University of Chicago Press.
Dibdin, T. F. (1825) The Library Companion; or, The Young Man’s Guide, and the Old
Man’s Comfort, in the Choice of a Library, 2 vols, 2nd ed., London: Harding, Triphook, and
Lepard, and J. Major.
Dickinson, L. K., and Wadsworth, S. A. (1997) ‘The Making (and Remaking) of the Penny
Magazine: An Electronic Edition of Charles Knight’s “The Commercial History of a Penny
Magazine”’, Gutenburg-Jahrbuch 72, 289–97.
67
Page 69
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 69/111
Dooley, A. C. (1992) Author and Printer in Victorian England, Charlottesville and London:
University Press of Virginia.
Eisenstein, E. (1979) The Printing Press as an Agent of Change: Communications and
Cultural Transformations in Early Modern Europe, 2 vols, Cambridge: Cambridge University
Press.
Eliot, S. (1994a) Some Patterns and Trends in British Publishing, 1800–1919, London:
Bibliographical Society.
Eliot, S. (1994b) ‘What are we to do about the History of Reading?’ The Author, 105, 69–70.
Eliot, S. (1995) ‘Some Trends in British Book Production, 1800–1919’, in J. O. Jordan and
R. L. Patten (eds), Literature in the Marketplace: Nineteenth-century British Publishing and
Reading Practices (Cambridge: Cambridge University Press), pp. 19–43.
Eliot, S. (1996) ‘The Reading Experience Database: Problems and Possibilities’, Publishing
History, 39, 87–100.
Eliot, S. (1997–8) ‘Patterns and Trends and the NSTC: Some Initial Observations’,
Publishing History 42, 79–104; 43, 71–112
Eliot, S., and Sutherland, J. (1989) ‘The Publishers’ Circular 1837–1900: A Guide to the
Microfiche Edition’, Book Trade History Group Newsletter 8, 20–35; 9, 22–32.
68
Page 70
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 70/111
Ellegård, A. (1990) Darwin and the General Reader: The Reception of Darwin’s Theory of
Evolution in the British Periodical Press, 1859–1872, Chicago and London: Chicago
University Press.
[Elwin, Whitwall] (1849) ‘Popular Science’, Quarterly Review 84, 307–44.
Erickson, L. (1996) The Economy of Literary Form: English Literature and the
Industrialization of Publishing, 1800–1850, Baltimore and London: Johns Hopkins
University Press.
Evans, I. H., ed. (1990) Brewer’s Dictionary of Phrase and Fable, 14th ed., London: Cassell.
Fauvel, J. (1989) ‘[Review of Wallis and Wallis (1986)]’, British Journal for the History of
Science 22, 118–9.
Feather, J. (1986) ‘British Publishing in the Eighteenth Century: A Preliminary Subject
Analysis’, Library 6th ser. 8, 32–46.
Feather, J. (1988) A History of British Publishing, London and New York: Routledge.
Fissell, M. (1992) ‘Readers, Texts and Contexts: Vernacular Medical Works in Early Modern
England’, in Roy Porter (ed.), The Popularization of Medicine, 1650–1850 (London and New
York: Routledge), pp. 72–96.
69
Page 71
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 71/111
Flint, K. (1993) The Woman Reader, 1837–1914, Oxford: Clarendon Press.
Foucault, M. (1974) The Order of Things: An Archaeology of the Human Sciences (London).
Foucault, M. (1977) ‘What is an Author?’, in Donald F. Bouchard (ed.), Language, Counter-
memory, Practice: Selected Essays and Interviews (Oxford: Basil Blackwell), pp. 113–38.
Frasca-Spada, M., and Jardine, N., eds (2000) Books and the Sciences in History, Cambridge:
Cambridge University Press.
Fraser, D. (in press) London Publishers, 1770–1880: With an Appendix on Binders’ Tickets,
Moffat, Dumfries and Galloway: Cameron Books.
Freeman, R. B. (1977) The Works of Charles Darwin: An Annotated Bibliographical
Handlist, 2nd ed., Folkestone, Kent and Hamden, Ct.: Dawson.
Freeman, R. B. (1980) British Natural History Books, 1495–1900: A Handlist, Folkestone,
Kent and Hamden, Ct.: Dawson.
Fyfe, A. (1997) ‘The Reception of William Paley’s Natural Theology in the University of
Cambridge’, British Journal for the History of Science 30, 321–35.
Fyfe, A. (1999) ‘Copyrights and Competition: Producing and Protecting Children’s Books in
the Nineteenth Century’, Publishing History 45, 35–59.
70
Page 72
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 72/111
Fyfe, A. (2000) ‘Industrialised Conversion: The Religious Tract Society and the Publishing
of Popular Science and Religion in Victorian Britain’, Ph.D. diss., University of Cambridge
(U.K.).
Gascoigne, R. M. (1985) A Historical Catalogue of Scientific Periodicals, 1665–1900: With a
Survey of their Development, New York: Garland.
Gaskell, P. (1974) A New Introduction to Bibliography, Oxford: Clarendon Press.
Gates, B. T. (1993) ‘Retelling the story of science’, Victorian Literature and Culture 21, 289–
306.
Gates, B. T. (1997) ‘Ordering Nature: Revisioning Victorian Science Culture’, in B.
Lightman (ed.), Victorian Science and Culture (Chicago and London: Chicago University
Press), pp. 179–87.
Gates, B. T. and Shteir, A. B. (1997) ‘Introduction: Charting the Tradition’, in B. T. Gates
and A. B. Shteir (eds), Natural Eloquence: Women Reinscribe Science (Madison and
London), pp. 3–24.
Goldspink, M. (1995) ‘“The Labours of Authorship”: The Role of Literary Concerns in
William Benjamin Carpenter’s Early Career, c. 1835–1856’, B.A. diss., University of
Cambridge (U.K.).
Golinski, J. (1992) Science as Public Culture: Chemistry and Enlightenment in Britain,
71
Page 73
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 73/111
1760–1820, Cambridge: Cambridge University Press.
Golinski, J. (1990a) ‘The Theory of Practice and the Practice of Theory: Sociological
Approaches in the History of Science’, Isis 81, 492–505.
Golinski, J. V. (1990b) ‘Language, Discourse and Science’, in R. C. Olby, G. N. Cantor, J.
R. R. Christie, and M. J. S. Hodge (eds), Companion to the history of modern science
(London and New York: Routledge), pp. 110–23.
[Grant, J.] (1838) The Great Metropolis: Second Series, 2 vols, London: Saunders and Otley.
Green, M. (1964) Science and the Shabby Curate of Poetry: Essays about the Two Cultures
(London).
Gross, J. (1991) The Rise and Fall of the Man of Letters: Aspects of English Literary Life
since 1800, Harmondsworth: Penguin.
Hall, D. (1996) ‘The Uses of Literacy in New England, 1600–1850’, in Cultures of Print:
Essays in the History of the Book (Amherst: University of Massachusetts Press), pp. 36-78.
Hays, J. N. (1981) ‘The Rise and Fall of Dionysius Lardner’, Annals of Science 38, 527–42.
Hesse, Carla (1990) ‘Enlightenment Epistemology and the Laws of Authorship in
Revolutionary France, 1777–1793’, Representations 30, 109–37.
72
Page 74
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 74/111
Hilgartner, S. (1990) ‘The Dominant View of Popularization: Conceptual Problems, Political
Uses’, Social Studies of Science 20, 519–39.
Hinton, D. A. (1979) ‘Popular Science in England, 1830–1870’, Ph.D. diss., University of
Bath.
Horrocks, S. (1987) ‘Audiences for Chemistry in Regency Britain: Mrs. Marcet’s
Conversations on Chemistry’, B.A. diss., University of Cambridge (U.K.).
Houghton, W. E., ed. (1966–1989) The Wellesley Index to Victorian Periodicals, 1824–1900,
5 vols, Toronto: University of Toronto Press; London: Routledge & Kegan Paul.
Howsam, L. (1992) ‘Sustained Literary Ventures: The Series in Victorian Book Publishing’,
Publishing History 31, 5–26.
Howsam, L. (2000) ‘An Experiment with Science for the Nineteenth-century Book-trade:
The International Scientific Series’, British Journal for the History of Science 33, ????.
Hunter, A., ed. (2000) Thornton and Tully’s Scientific Books, Libraries and Collectors: A
Study of Bibliography and the Book Trade in Relation to the History of Science, 4th ed.,
Aldershot: Ashgate.
Hutchinson, G. (1980) ‘Robert Chambers’s Vision of Science: The Diffusion of Scientific
Ideas to the General Reader in Early-Victorian Britain’, Ph.D. diss., Temple University.
73
Page 75
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 75/111
Issitt, J. (1998) ‘Introducing Sir Richard Phillips’, Paradigm 26: 25–9.
Issitt, J. (2000) ‘The Life and Work of the Rev. Jeremiah Joyce’, Ph.D. diss., Open
University.
Jack, I. (1963) English Literature, 1815–1832: Scott, Byron, and Keats, Oxford: Clarendon
Press.
James, F. A. J. L. (2000) ‘Books on the Natural Sciences in the Nineteenth Century’, in A.
Hunter (ed.), Thornton and Tully’s Scientific Books, Libraries and Collectors: A Study of
Bibliography and the Book Trade in Relation to the History of Science, 4th ed. (Aldershot:
Ashgate), pp. 258–71.
James, L., ed. (1976) Print and the People, 1819–1851, London: Allen Lane.
Johns, A. (1991) ‘History, Science, and the History of the Book: The Making of Natural
Philosophy in Early Modern England’, Publishing History 30, 5-30.
Johns, A. (1996) ‘The Physiology of Reading in Restoration England’, in J. Raven, H. Small
and N. Tadmor (eds), The Practice and Representation of Reading in England (Cambridge:
Cambridge University Press), pp. 138–61.
Johns, A. (1998a) ‘Science and the Book in Modern Cultural Historiography’, Studies in
History and Philosophy of Science 29, 167–94.
74
Page 76
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 76/111
Johns, A. (1998b) The Nature of the Book: Print and Knowledge in the Making, Chicago and
London: Chicago University Press.
Jordan, J. O., and Patten, R. L., eds (1995) Literature in the Marketplace: Nineteenth-century
British Publishing and Reading Practices, Cambridge: Cambridge University Press.
Joyce, P. (1991) Visions of the People: Industrial England and the Question of Class, 1848-
1914, Cambridge: Cambridge University Press.
Kaufman, P. (1960) Borrowings from the Bristol Library, 1773–1784: A Unique Record of
Reading Vogues, Charlottesville: Bibliographical Society of the University of Virginia.
Kelly, T. (1966) Early Public Libraries: A History of Public Libraries in Great Britain before
1850, London: Library Association.
Kirsop, W. (1998) ‘Booksellers and their Customers: Some Reflections on Recent Research’,
Book History 1, 283–303.
Kitteringham, G. S. (1981) ‘Studies in the Popularization of Science in England, 1800–30’,
Ph.D. diss., University of Kent.
Klancher, J. P. (1987) The Making of English Reading Audiences, 1790–1832, Madison:
University of Wisconsin Press.
[Knight, C.] (1832) ‘Preface’, Penny Magazine 1, iii–iv.
75
Page 77
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 77/111
[Knight, C.] (1833) ‘The Commercial History of a Penny Magazine’, Penny Magazine 2,
377–84, 417–24, 465–72, and 505–11.
Knight, C. (1854) The Old Printer and the Modern Press, London: John Murray.
Knight, C. (1864–5) Passages of a Working Life through Half a Century: With a Prelude of
Early Reminiscences, 3 vols, London: Bradbury and Evans.
Knight, D. (1972) Natural Science Books in English, 1600–1900, London: Batsford.
Knight, D. (1975) Sources for the History of Science, 1660–1914, London: Sources of
History Ltd.
Knight, D. M. (1980) ‘The Growth of European Scientific Monograph Publishing before
1850’, in A. J. Meadows (ed.), Development of Science Publishing in Europe (Amsterdam:
Elsevier Science Publishers), pp. 23–41.
Laqueur, T. W. (1976) Religion and Respectability: Sunday Schools and Working-class
Culture, 1780–1850, New Haven: Yale University Press.
Layton, D. (1965) ‘Diction and Dictionaries in the Diffusion of Scientific Knowledge: An
Aspect of the History of the Popularization of Science in Great Britain’, British Journal for
the History of Science 2, 221–34.
76
Page 78
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 78/111
Layton, D. (1973) Science for the People: The Origins of the School Science Curriculum,
London: George Allen and Unwin.
Lefanu, W. R. (1984) British Periodicals of Medicine: A Chronological List 1640–1899, rev.
ed., ed. Jean Loudon, Oxford: Wellcome Unit for the History of Medicine.
Lightman, B. (1989) ‘Ideology, Evolution and Late-Victorian Agnostic Popularizers’, in J. R.
Moore (ed.), History, Humanity and Evolution: Essays for John C. Greene, (Cambridge:
Cambridge University Press), pp. 285–309.
Lightman, B. (1996) ‘Astronomy for the People: R. A. Proctor and the Popularization of the
Victorian Universe’, in J. van der Meer (ed.), Facets of Faith and Science, vol. 3, The Role of
Beliefs in the Natural Sciences (Lanham, Md. and London: University Press of America), pp.
31–45.
Lightman, B. (1997) ‘“The Voices of Nature”: Popularizing Victorian Science’, in B.
Lightman (ed.), Victorian Science and Culture (Chicago and London: Chicago University
Press), pp. 187–211.
Lightman, B. (1997b) ‘Constructing Victorian Heavens: Agnes Clerke and Gendered
Astronomy’, in B. T. Gates and A. B. Shteir (ed.), Natural Eloquence: Women Reinscribe
Science (Madison: University of Wisconsin Press), pp. 61–78.
Lindee, M. S. (1991) ‘The American Career of Jane Marcet’s Conversations on Chemistry,
1806–1853’, Isis 82, 8–23.
77
Page 79
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 79/111
MacKenzie, D., and Wajcman, J. (1999) 'Introductory Essay: The Social Shaping of
Technology', in The Social Shaping of Technology, 2nd ed. (Buckingham: Open University
Press), pp. 3–27.
McKenzie, D. F. (1981) ‘Typography and Meaning: The Case of William Congreve’, in G.
Barber and B. Fabian (eds), The Book and the Book Trade in Eighteenth-century Europe
(Hamburg: Hauswedell), pp. 81–126.
McKenzie, D. F. (1985) Bibliography and the Sociology of Texts, London: British Library.
McKitterick, D. (1998) A History of Cambridge University Press, vol. 2, Scholarship and
Commerce, 1698–1872, Cambridge: Cambridge University Press.
[MacLeod, R. M.] (1969) ‘[Historical Notices on the Centenary of Nature]’ Nature 224, 423–
61.
MacLeod, R. M. (1980) ‘Evolutionism, Internationalism and Commercial Enterprise in
Science: The International Scientific Series 1871–1910’, in A. J. Meadows (ed.),
Development of Science Publishing in Europe (Amsterdam: Elsevier Science Publishers), pp.
63–93.
Marston, E. (1904) After Work: Fragments from the Workshop of an Old Publisher, London:
W. Heinemann; New York, C. Scribner's sons.
78
Page 80
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 80/111
Matthews, W. (1950) British Diaries: An Annotated Bibliography of British Diaries Written
between 1442 and 1942, Berkeley: University of California Press.
Matthews, W. (1955) British Autobiographies: An Annotated Bibliography of British
Autobiographies Published or Written before 1951, Berkeley: University of California Press.
Maxted, Ian (1977) The London Book Trades, 1775–1800: A Preliminary Checklist of
Members, Folkestone, Kent: Dawson.
Meadows, A. J. (1972) Science and Controversy: A Biography of Sir Norman Lockyer,
Founder of Nature, London: Macmillan.
Meadows, A. J., ed. (1980) Development of Science Publishing in Europe, Amsterdam and
New York: Elsevier Science Publishers.
Merrill, L. (1989) The Romance of Victorian Natural History, New York and Oxford: Oxford
University Press.
Mineka, F. E. (1944) The Dissidence of Dissent: The Monthly Repository, 1806–1838, under
the Editorship of Robert Aspland, W. J. Fox, R. H. Horne, and Leigh Hunt; With a Chapter
on Religious Periodicals, 1700–1825, Chapel Hill, NC: University of North Carolina Press.
Morrell, J. B. (1990) ‘Professionalization’, in R. C. Olby, G. N. Cantor, J. R. R. Christie, and
M. J. S. Hodge (eds), Companion to the History of Modern Science (London and New York:
Routledge), pp. 980–9.
79
Page 81
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 81/111
Morrell, J., and Thackray, A. (1981) Gentlemen of Science: Early Years of the British
Association for the Advancement of Science, Oxford: Clarendon Press.
Morris, R. J. (1976) Cholera, 1832: The Social Response to an Epidemic, London: Croom
Helm.
Myers, R. (1983) ‘Writing for Booksellers in the Early Nineteenth Century: A Case Study’,
in Robin Myers and Michael Harris (eds), Author/Publisher Relations During the Eighteenth
and Nineteenth Centuries (Oxford: Oxford Polytechnic Press), pp. 119–55.
Myers, G. (1989) ‘Science for Women and Children: The Dialogue of Popular Science in the
Nineteenth Century’, in J. Christie and S. Shuttleworth (eds), Nature Transfigured: Science
and Literature 1700–1900 (Manchester: Manchester University Press), pp. 171–200.
Myers, G. (1990) Writing Biology: Texts in the Social Construction of Scientific Knowledge,
Madison: University of Wisconsin Press.
Myers, G. (1992) ‘Fiction for Facts: The Form and Authority of the Scientific Dialogue’,
History of Science 30, 221–47.
Myers, G. (1997) ‘Fictionality, Demonstration, and a Forum for Popular Science: Jane
Marcet’s Conversations on Chemistry’, in B. T. Gates and A. B. Shteir (eds), Natural
Eloquence: Women Reinscribe Science (Madison: University of Wisconsin Press), pp. 43–
60.
80
Page 82
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 82/111
Neuburg, V. E. (1977) Popular Literature: A History and Guide from the Beginnings of
Printing to the Year 1897, Harmondsworth: Penguin.
Nineteenth Century Short Title Catalogue Series I and II (1801–1870), CD-ROM, Newcastle-
upon-Tyne: Avero Publications, 1996.
Noblett, W. (1988) ‘Publishing by the Author: A Case Study of Dru Drury’s “Illustrations of
Natural History” (1770–82)’, Publishing History 23, 67–94.
North, J. S. (1986) The Waterloo Directory of Irish Newspapers and Periodicals, 1800–1900,
Waterloo, Ont.: North Waterloo Academic Press.
North, J. S. (1989) The Waterloo Directory of Scottish Newspapers and Periodicals, 1800–
1900, 2 vols, Waterloo, Ont.: North Waterloo Academic Press.
North, J. S., (1997–) The Waterloo Directory of English Newspapers and Periodicals, 1800-
1900, 10 vols [of 50], Waterloo, Ont.: North Waterloo Academic Press.
Orange, A. D. (1975) ‘The Idols of the Theatre: The British Association and its Early
Critics’, Annals of Science 32, 277–94.
Paradis, J. G. (1997) ‘Satire and Science in Victorian Culture’, in B. Lightman (ed.),
Victorian Science in Context (Chicago and London: Chicago University Press), pp. 143–75.
81
Page 83
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 83/111
Paston, G. (1932) At John Murray’s: Records of a Literary Circle, 1843–1892, London: John
Murray.
Patten, R. L. (1978) Charles Dickens and his Publishers, Oxford: Clarendon Press.
Patterson, E. C. (1983) Mary Somerville and the Cultivation of Science, 1815–1840, Boston:
Nijhoff.
Peacock, T. L. (1969 [1817–18/1831]) Nightmare Abbey/Crotchet Castle, rpt.,
Harmondsworth: Penguin.
Peckham, M. (1951) ‘Dr. Lardner’s “Cabinet Cyclopedia”’, Papers of the Bibliographical
Society of America 45, 37–58.
Peckham, M., ed. (1959) The Origin of Species: A Variorum Text, Philadelphia: University
of Pennsylvania Press.
Phillips, R. (1832) A Million of Facts Connected with the Studies, Pursuits and Interests of
Mankind, Serving as a Common-Place Book of Useful Reference on all Subjects of Research
and Curiosity, Collected from the Most Respectable Modern Authorities, London: Sherwood,
Gilbert, and Piper.
Plant, M. (1939) The English Book Trade: An Economic History of the Making and Sale of
Books, London: George Allen & Unwin.
82
Page 84
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 84/111
[Pollard, A. W.] (1915) List of Catalogues of English Book Sales, 1676–1900, now in the
British Museum, London: British Museum.
Porter, R. (1992) ‘The Rise of Medical Journalism in Britain to 1800’, in W. F. Bynum, S.
Lock, and R. Porter (eds), Medical Journals and Medical Knowledge: Historical Essays
(London and New York: Routledge), pp. 6–28.
Raven, J. (1987) British Fiction, 1750–1770: A Chronological Check-list of Prose Fiction
Printed in Britain and Ireland, Newark: University of Delaware Press; London: Associated
University Presses.
Raven, J. (1992) Judging New Wealth: Popular Publishing and Responses to Commerce in
England, 1740–1800, Oxford: Clarendon Press.
Raven, J. (2000) The English Novel 1770-1829: A Bibliographical Survey of Prose
Fiction Published in the British Isles, vol. 1, 1770-1799, Oxford: Oxford University Press.
Raven, J. (forthcoming) Commercialization of the Book in Britain, Cambridge: Cambridge
University Press.
Rees, T. (1896) Reminiscences of Literary London from 1779 to 1853: With Interesting
Anecdotes of Publishers, Authors and Book Auctioneers of that Period, &c., &c., New York:
F.P. Harper.
Ritvo, H. (1985) ‘Learning from Animals: Natural History for Children in the Eighteenth and
83
Page 85
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 85/111
Nineteenth Centuries’, Children’s Literature 13, 72–93.
Ritvo, H. (1987) The Animal Estate: The English and Other Creatures in the Victorian Age,
Cambridge, MA and London: Harvard University Press.
Robinson, F. J. G., and Wallis, P. J. (1975–81) Book Subscription Lists: A Revised Guide
[with four supplements], Newcastle-upon-Tyne: Harold Hill for the Book Subscription List
Project [Project for Historical BioBibliography].
Roldàn-Vera, E. (2000a) ‘Useful Knowledge for Export’, in M. Frasca-Spada and N. Jardine
(eds), Books and the Sciences in History (Cambridge: Cambridge University Press), pp. 338–
53.
Roldàn-Vera, E. (2000b) ‘Rudolph Ackermann and the Politics of Instruction: A
Transcontinental Enterprise’, Ph.D. diss., University of Cambridge (U.K.).
Rose, J. (1992) ‘Rereading the English Common Reader: A Preface to a History of
Audiences’, Journal of the History of Ideas, 53, 47–70.
Rose, M. (1988) ‘The Author as Proprietor: Donaldson v. Becket and the Genealogy of
Modern Authorship’, Representations 23, 51–85.
Rose, M. (1993) Authors and Owners: The Invention of Copyright, Cambridge, Mass.:
Harvard University Press.
84
Page 86
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 86/111
Ross, S. (1962) ‘“Scientist”: The Story of a Word’, Annals of Science 18, 65–86.
Rossiter, M. W. (1986) ‘Women and the History of Scientific Communication’, Journal of
Library History 21, 39–59.
Rousseau, G. S. (1982) ‘Science Books and their Readers in the Eighteenth Century’, in
Isabel Rivers (ed.), Books and their Readers in Eighteenth-century England (Leicester:
Leicester University Press; New York: St. Martin's Press), pp. 197–255.
Rudwick, M. J. S. (1985) The Great Devonian Controversy: The Shaping of Scientific
Knowledge among Gentlemanly Specialists, Chicago and London: University of California
Press.
Rupke, N. (2000) ‘Translation Studies in the History of Science: The example of Vestiges’,
British Journal for the History of Science 33, ????.
Russell-Gebbett, J. (1977) Henslow of Hitcham: Botanist, Educationalist and Clergyman,
Levenham, Suffolk: T. Dalton.
Schaffer, S. (1983) ‘Natural Philosophy and Public Spectacle in the Eighteenth Century’,
History of Science 21, 1–43.
Schaffer, S. (1986) ‘Scientific Discoveries and the End of Natural Philosophy’, Social
Studies of Science 16, 387–420.
85
Page 87
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 87/111
Schaffer, S. (1990) ‘Genius in Romantic Natural Philosophy’, in A. Cunningham and N.
Jardine (eds), Romanticism and the Sciences (Cambridge: Cambridge University Press), pp.
82–98.
Schatzberg, W., Waite, R. A., and Johnson, J. K., eds (1987) The Relations of Literature and
Science: An Annotated Bibliography of Scholarship, 1880–1980, New York: Modern
Language Association of America.
Scudder, S. H. (1965 [1879]) Catalogue of Scientific Serials of all Countries Including the
Transactions of Learned Societies in the Natural, Physical and Mathematical Sciences, 1633-
1876, rpt., New York: Kraus Reprint Corp.
Secord, A. (1994) ‘Science in the Pub: Artisan Botanists in Early Nineteenth-century
Lancashire’, History of Science 32, 269–315.
Secord, J. A. (1985) ‘Newton in the Nursery: Tom Telescope and the Philosophy of Tops and
Balls, 1761–1838’, History of Science 23, 127–51.
Secord, J. A. (1986) Controversy in Victorian Geology: The Cambrian-Silurian Dispute,
Princeton: Princeton University Press.
Secord, J. A. (1989a) ‘Behind the Veil: Robert Chambers and Vestiges’, in J. R. Moore (ed.),
History, Humanity and Evolution: Essays for John C. Greene (Cambridge: Cambridge
University Press), pp. 165–94.
86
Page 88
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 88/111
Secord, J. A. (1989b) ‘Extraordinary Experiment: Electricity and the Creation of Life in
Victorian England’, in D. Gooding, T. Pinch, and S. Schaffer (eds), The Uses of Experiment:
Studies in the Natural Sciences (Cambridge: Cambridge University Press), pp. 337–83.
Secord, J. A. (1994) ‘Introduction’, in R. Chambers, Vestiges of the Natural History of
Creation and Other Evolutionary Writings, ed. J. A. Secord (Chicago and London: Chicago
University Press), pp. ix–xlviii.
Secord, J. A. (in press) Victorian Sensation: The Extraordinary Publication, Reception and
Secret Authorship of Vestiges of the Natural History of Creation, Chicago: Chicago
University Press.
Shapin, S. (1984a) ‘Pump and Circumstance: Robert Boyle’s Literary Technology’, Social
Studies of Science 14, 481–520.
Shapin, S. (1984b) ‘Brewster and the Edinburgh Career in Science’, in A. D. Morrison-Low
and J. R. R. Christie (eds), ‘Martyr of science’: Sir David Brewster 1781–1868 (Edinburgh),
pp. 17–29.
Shapin, S., and Barnes, B. (1976) ‘Head and Hand: Rhetorical Resources in British
Pedagogical Writing, 1770–1850’, Oxford Review of Education 2, 231–54.
Shapin, S., and Barnes, B. (1977) ‘Science, Nature and Control: Interpreting Mechanics’
Institutes’, Social Studies of Science 7, 31–74.
87
Page 89
7/16/2019 TOPAHM_ Scientific Publishing and the Reading of Science
http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 89/111
Shapin, S., and Thackray, A. (1974) ‘Prosopography as a Research Tool in History of
Science: The British Scientific Community 1700–1900’, History of Science 12, 1–28.
Shairp, J. C., Tait, P. G., and Adams-Reilly, A., eds (1873) Life and Letters of James David
Forbes, F.R.S., London: Macmillan & Co.
Sheets-Pyenson, S. (1981a) ‘Darwin’s Data: His Reading of Natural History Journals, 1837–
1842’, Journal of the History of Biology 14, 231–48.
Sheets-Pyenson, S. (1981b) ‘War and Peace in Natural History Publishing: The Naturalist’s
Library, 1833–1843’, Isis 72, 50–72.
Sheets-Pyenson, S. (1981c) ‘A Measure of Success: The Publication of Natural History
Journals in Early Victorian Britain’, Publishing History 9, 21–36.
Sheets-Pyenson, S. (1982) ‘From the North to Red Lion Court: The Creation and Early Years
of the Annals of Natural History’, Archives of Natural History 10, 221–49.
Sheets-Pyenson, S. (1985) ‘Popular Science Periodicals in Paris and London: The Emergence
of a Low Scientific Culture, 1820–1875’, Annals of Science 42, 549–72.
Sheets-Pyenson, S. (1987) ‘The Effect of a Changes in Printing Technology on the
Development of Natural History Sciences during the Nineteenth Century’, in P. F. McNally
(ed.), The Advent of Printing: Historians Respond to Elizabeth Eisenstein’s The Printing
Press as an Agent of Change (Montreal: Graduate School of Library and Information Studies,
88
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http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 90/111
McGill University), pp. 21–6.
Sherman, W. H. (1995) John Dee: The Politics of Reading and Writing in the English
Renaissance, Amherst: University of Massachusetts Press.
Sherman, W. H. (1996) ‘The Place of Reading in the English Renaissance: John Dee
Revisited’, in J. Raven, H. Small and N. Tadmor (eds), The Practice and Representation of
Reading in England (Cambridge: Cambridge University Press), pp. 62–76.
Shiach, M. (1989) Discourse on Popular Culture: Class, Gender and History in Cultural
Analysis, 1730 to the Present, Cambridge: Polity Press.
Shteir, A. B. (1987) ‘Botany in the Breakfast Room: Women and Early Nineteenth-century
British Plant Study’, in P. Abir-Am and D. Outram (eds), Uneasy Careers and Intimate Lives:
Women in Science, 1789–1979 (New Brunswick, NJ and London: Rutgers University Press),
pp. 31–43.
Shteir, A. B. (1989–90) ‘Botanical Dialogues: Maria Jacson and Women’s Popular Science
Writing in England’, Eighteenth-century Studies 23, 301–17.
Shteir, A. B. (1996) Cultivating Women, Cultivating Science: Flora’s Daughters and Botany
in England, 1760–1860, Baltimore and London: Johns Hopkins University Press.
Shteir, A. B. (1997) ‘Elegant Recreations? Configuring Science Writing for Women’, in B.
Lightman (ed.), Victorian Science in Context (Chicago and London: Chicago University
89
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Press), pp. 236–55
Smiles, S. (1891) A Publisher and his Friends: Memoir and Correspondence of the Late John
Murray with an Account of the Origin and Progress of the House, 1768–1843, 2 vols,
London: John Murray.
Smith, J. V. (1983) ‘Reason, Revelation and Reform: Thomas Dick of Methven and the
“Improvement of Society by the Diffusion of Knowledge”’, History of Education 12, 255–70.
Stewart, L. (1996) ‘Seeing through the Scholium: Religion and Reading Newton in the
Eighteenth Century’, History of Science 34, 134–65.
Stoddard, R. E. (1987) ‘Morphology and the Book Form in American Perspective’, Printing
History 9, 2–14.
Sullivan, A., ed., (1983–4) British Literary Magazines, 4 vols, Westport, Ct. and London:
Greenwood Press.
Sutherland, J. A. (1976) Victorian Novelists and Publishers, London: Athlone Press.
Sutherland, J. A. (1995) Victorian Fiction: Writers, Publishers, Readers, Basingstoke:
Macmillan.
Thornton, J. L. (1966) Medical Books, Libraries and Collectors: A Study of Bibliography and
the Book Trade in Relation to the Medical Sciences, 2nd ed., London: Deutsch.
90
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Thornton, J. L., and Tully, R. (1971) Scientific Books, Libraries and Collectors: A Study of
Bibliography and the Book Trade in Relation to Science, 3rd ed., London: Library
Association.
Thornton, J. L., and Tully, R. (1978) Scientific Books, Libraries, and Collectors: A Study of
Bibliography and the Book Trade in Relation to Science: Supplement, 1969-75, London:
Library Association.
Todd, W. B. (1972) A Directory of Printers and Others in Allied Trades, London and
Vicinity, 1800–1840, London: Printing Historical Society.
Topham, J. R. (1992) ‘Science and Popular Education in the 1830s: The Role of the
Bridgewater Treatises’, British Journal for the History of Science 25, 397–430.
Topham, J. R. (1993) ‘“An Infinite Variety of Arguments”: The Bridgewater Treatises and
British Natural Theology in the 1830s’, Ph.D. diss., University of Lancaster.
Topham, J. R. (1998) ‘Beyond the “Common Context”: The Production and Reading of the
Bridgewater Treatises’, Isis 89, 233–62.
Topham, J. R. (2000) ‘A Textbook Revolution’, in M. Frasca-Spada and N. Jardine (eds),
Books and the Sciences in History (Cambridge: Cambridge University Press), pp. 317–37.
Vann, J. D., and Van Arsdel, R. T. (eds), Victorian Periodicals and Victorian Society,
91
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Aldershot: Scolar Press, 1994.
Vincent, D. (1983) ‘Reading in the Working Class Home’, in J. K. Walton and J. Walvin
(eds), Leisure in Britain, 1780–1939, (Manchester: Manchester University Press), pp. 207–
26.
Vincent, D. (1989) Literacy and Popular Culture: England, 1750–1914, Cambridge:
Cambridge University Press.
Wallis, P. J. (1974) ‘Biobibliography of British Mathematics and its Applications up to
1850’, Historia Mathematica 1, 449–54.
Wallis, P. J. and R. V. (1977) Newton and Newtoniana, 1672–1975, Folkestone, Kent:
Dawson, for the Project for Historical Biobibliography.
Wallis, P. J. and R. V. (1986) Biobibliography of British Mathematics and its Applications.
Part II (1701–1760), Letchworth: Epsilon Press, for the Project for Historical
Biobibliography.
Wallis, P. J. and R. V. (1988) Eighteenth Century Medics (Subscriptions, Licences,
Apprenticeships), 2nd ed., Newcastle-upon-Tyne: PHIBB.
Wallis, P. J. and R. V. (1993) Index of British Mathematicians. Part III (1700–1800),
Newcastle-upon-Tyne: PHIBB.
92
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Walters, A. N. (1992) ‘Tools of Enlightenment: The Material Culture of Science in
Eighteenth-century England’, Ph.D. diss., University of California at Berkeley.
Walters, A. N. (1997) ‘Conversation Pieces: Science and Politeness in Eighteenth-century
England’, History of Science, 35, 121–54.
Weedon, A., and Bott, M. (1996) British Book Trade Archives, 1830–1939: A Location
Register, Bristol: Simon Eliot and Michael Turner.
Whewell, W. (1857) History of the Inductive Sciences from the Earliest to the Present Time,
3rd ed., 3 vols. (London: J. W. Parker)
Whiteside, D. T. (1988) ‘[Review of Wallis and Wallis (1986)]’, Isis 79, 305–7.
Whitley, R. (1985) ‘Knowledge Producers and Knowledge Acquirers: Popularisation as a
Relation between Scientific Fields and their Publics’, in T. Shinn and R. Whitley (eds),
Expository Science: Forms and Functions of Popularisation (Dordrecht and Boston: D.
Reidel), pp. 3–28.
Williams, L. P., ed. (1971) The Selected Correspondence of Michael Faraday, 2 vols,
Cambridge: Cambridge University Press.
Williams, R. (1988) Keywords: A Vocabulary of Culture and Society (London: Fontana
Press).
93
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http://slidepdf.com/reader/full/topahm-scientific-publishing-and-the-reading-of-science 95/111
Wolff, M., North, J. S., and Deering, D. (1977) The Waterloo Directory of Victorian
Periodicals, 1824–1900: Phase I, Waterloo, Ont.: Published for University of Waterloo by
Wilfred Laurier University Press.
Wood, A. (1954) Thomas Young, Natural Philosopher, 1773–1829, Cambridge: Cambridge
University Press.
Woodmansee, M. (1984) ‘The Genius and the Copyright: Economic and Legal Conditions of
the Emergence of the “Author”’, Eighteenth-Century Studies 17, 425–48.
Yeo, R. (1989) ‘Science and Intellectual Authority in Mid-nineteenth Century Britain: Robert
Chambers and the “Vestiges of the Natural History of Creation”’, in P. Brantlinger (ed.),
Energy and Entropy: Science and Culture in Victorian Britain (Bloomington, Ind.: Indiana
University Press), pp. 1–27.
Yeo, R. (1991) ‘Reading Encyclopaedias: Science and the Organization of Knowledge in
British Dictionaries of Arts and Sciences, 1730–1850’, Isis 82, 24–49.
Yeo, R. (1993) Defining Science: William Whewell, Natural Knowledge and Public Debate
in Early Victorian Britain, Cambridge: Cambridge University Press.
Yeo, R. (1999) ‘Introduction’, in D. Brewster (ed.) The Edinburgh Encyclopaedia, 18 vols.
(London and New York: Routledge), Vol. 1, pp. v–xxii.
94
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NOTES
1 Golinski (1992), p. 3.
2
[Anon] (1837), p. 33.
3 On the ‘second scientific revolution’ see Cohen (1985), pp. 91–101. For the ‘invention of
science’ see Schaffer (1986), Cunningham (1988), and Cunningham and Williams (1993).
On the changes in natural enquiry in this period see also Foucault (1974).
4 Schaffer (1986), p. 407. The quotation is from Whewell (1857), vol. 3, p. 16. See also
Schaffer (1983).
5 Golinski (1992), p. 9.
6 Schaffer (1986), pp. 406–13, and Golinski (1992), pp. 9–10 and 284–5. On the changed
audience relations of the new sciences of this period, see also Secord (1985) and Yeo (1993),
esp. pp. 32–8.
7 I do not mean to imply that there has been a completely unitary and homogeneous notion of
popularization within the science of the last two centuries, but merely certain common
elements. On the changing nature and functions of the diffusionist notion see Whitley (1985)
and Cooter and Pumfrey (1994), esp. p. 239.
8 On ‘popularization’ see Green (1964), p. 33, and Williams (1988), pp. 236–8; on the
changing meanings of ‘popular’ and ‘the people’ see Shiach 1989 and Joyce 1991. The
earliest use of this sense of ‘popularize’ cited in the OED dates from 1836. On ‘scientist’ see
Ross (1962).
9 For recent valuable discussions of the uses of the ‘diffusionist’ model of popularisation see
Hilgartner (1990), Whitley (1985), and Cooter and Pumfrey (1994). A detailed historical
study of the word ‘popularization’, and of the associated diffusionist notion, would be
extremely valuable. Its origins in nineteenth-century Britain are briefly discussed in
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Kitteringham (1981), pp. 1–10, and Hinton (1979), pp. 2–6.
10 Sheets-Pyenson (1985), pp. 547–55.
11
Cooter and Pumfrey (1994), p. 239.
12 Cooter and Pumfrey (1994).
13 See Johns (1991), p. 8, and Johns (1998a).
14 See Darnton (1990a), p. 111, and Topham (1998). Darnton’s model purports at some level
to present a ‘life cycle’ of the book, but he is quite clear that what is transmitted at most
stages of the circuit is not the book as such, but variously embodied ‘messages’. A more
strictly book-centred approach is proposed in Adams and Barker (1993).
15 This point is well made in the conclusion to Adrian Johns’s magisterial The Nature of the
Book: Print and Knowledge in the Making (Johns 1998b), which appeared after this paper
had been written.
16 There has, however, been a growing interest in this area over the last few years, and a
number of important studies are now in the course of appearing. See Secord (forthcoming),
Frasca-Spada and Jardine (2000), and the special section in the June 2000 issue of the British
Journal for the History of Science, entitled ‘Book History and the Sciences’.
17 Peacock (1969), pp. 133–4.
18 Darnton (1990a), p. 111.
19 See Golinski (1990a), pp. 498–500, Whitley (1985), and Cooter and Pumfrey (1994), pp.
250–1.
20 James Secord, ‘Evolution for the people’ (discussion paper), quoted in Cooter and Pumfrey
(1994), p. 243.
21 Among the more valuable bibliographies are Freeman (1977, 1980), Cole (1988), Cooter
(1989), and Wallis and Wallis (1977). Further references are given in Knight (1975).
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22 David Knight went some way toward providing an overview of patterns and trends in
Knight (1972), but the intended audience and historical range of that work militated against
systematic analysis, and only passing attention was given to the development of reading
audiences. See also James (2000). For discussion of the changing pattern of book production
in nineteenth-century natural history see Allen (1978), Barber (1980), and Merrill (1989).
23 It is particularly striking that John Thornton’s two standard works on scientific and medical
books, even in their recently revised form, provide little more than annotated lists of books
and authors retrospectively considered to have been important. See Thornton and Tully
(1971, 1978), Thornton (1966), and Besson (1990). At the time of going to press, I have only
been able to see one of the chapters from Hunter (2000), which is a marked improvement on
its predecessor. See James (2000).
24 See Kitteringham (1981) and Hinton (1979).
25 See Kitteringham (1981), pp. 10, 20–22.
26 See especially A. Secord (1994).
27 See Topham (1993), chapter 5, and Altick (1957), pp. 260–93.
28 Eliot (1994a, 1995). See also Howsam (1992).
29 Nineteenth Century Short Title Catalogue (1996). This union catalogue, begun in 1983, is
intended to provide progressively more complete listings of all books published between
1801 and 1919 in Britain, its colonies, or the U.S.A., together with any other books published
in English or in translation from English. See Eliot (1997–8). As an indication of the
relevance of such work to the history of science, it is worth noting that the fall in the number
of medical periodical titles during the 1860s, identified as ‘puzzling’ by W. F. Bynum and
Janice C. Wilson, coincides with a general plateauing in the total number of book titles in the
same period. See Bynum and Wilson (1992), pp. 30–1.
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30 Eliot (1997–8), pp. 72, 80. For a similar use of the new bibliographical databases for the
eighteenth century see Feather (1986). A rather more limited, but nonetheless interesting
bibliometrical assessment of nineteenth-century science books is made in James (2000), pp.
259–62.
31 Eliot (1997–8), pp. 84, 88–9.
32 Raven (1992), p. 24.
33 Raven (1992), p. 25.
34 Raven (1992), p. 26. See also Raven (1987, 2000).
35 See Wallis (1974), p. 449.
36 Wallis and Wallis (1986) and Whiteside (1988), p. 306.
37 See Layton 1973, pp. 111–2, and Evans (1990), p. xvii.
38 See, for instance, Meadows (1980), especially the essays by W. H. Brock and Jean G.
Shaw, Sheets-Pyenson (1985), Gascoigne (1985), Bynum, Lock, and Porter (1992), and
Barton (1998). Important overviews of the literature on scientific and medical periodicals
respectively are provided by W. H. Brock and M. Jeanne Peterson in Vann and Van Arsdel
(1994).
39Gascoigne (1985), p. vii. The standard bibliographies of nineteenth-century scientific and
medical periodicals remain Bolton (1897), Scudder (1965), and Lefanu (1984). For general
periodicals see especially Wolff, North, and Deering (1977), North (1986, 1989, 1997–),
Sullivan (1983–4), and Altholz (1989)
40 A notably successful use of early nineteenth-century medical periodicals in this way is
found in Desmond (1989); see esp. pp. 13–16.
41 Some consideration to this matter is given in Hinton (1979), pp. 266–340, and
Kitteringham (1981), pp. 180–226. See also Cook (1976), and the use of religious periodicals
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in Morris (1976), ch. 7. For the later nineteenth century see, for instance, Ellegård (1990)
and Broks (1996).
42
See http://www.sciper.leeds.ac.uk.
43 See Altick (1957), p. 260. On nineteenth-century library provision see especially Kelly
(1966). A useful survey of library history literature and historiography is given in Black
(1997).
44 I give some consideration to the mechanics’ institutes libraries in Topham (1992). See also
Hinton (1979), pp. 221–65.
45 See, for example, Topham (1993), which provides an account of the libraries in early
nineteenth-century Leeds.
46 A useful guide to the literature on retail bookselling, and on some other aspects of book
distribution, is given in Kirsop (1998).
47 Chartier (1989), p. 169. Chartier makes this point particularly in opposition to the older
tradition in French cultural history, which relied heavily on indirect, sociometric evidence.
On the dominance of exclusively sociometric analysis in the ‘old’ book history of the
Annales school, and on the reconstitution of book history in the 1980s to include the
‘internal’ history of reading see also Johns (1988a) and Darnton (1990b), pp. 158–63.
48 Letters from Susan to Charles Darwin, 12–18 November 1832 and 3–6 March 1833, in
Burkhardt et al. (1985–99), vol. 1, pp. 283–5 and 299–300, on pp. 284 and 299.
49 Letter from Michael Faraday to A. de la Rive, 2 October 1858, in Williams (1971), vol. 2,
pp. 903–4, on p. 914. Jonathan Rose (1992) presents some striking evidence of the use of the
literature of ‘high culture’ by working-class readers in nineteenth century Britain. See also
Topham (1998).
50 Alston’s database is currently available at http://www.r-alston.co.uk/contents.htm. For
99
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references to private and public library catalogues see also Alston (1991), Pollard (1915), and
Coral (1995). One of the most systematic and valuable studies of loans from an institutional
library is Kaufman (1960). The Bristol Library Society’s loan registers have survived for the
years 1773–1857, and are now kept at Bristol Public Library. Another important library for
which some loan registers have survived is the London Library. See Baker (1992). There is
some discussion of other early nineteenth-century borrowing records in Topham (1993), Ch.
5.
51 Biography Database (1995). See also Robinson and Wallis (1975–81) and Alston,
Robinson, and Wadham (1983). Data from the former have been used extensively in Wallis
(1988, 1993).
52 See, for example, Matthews (1955, 1950) and Burnett, Vincent, and Mayall (1984–9). A
particularly rich source for historians of science, which has been made available on
microfiche, is Brock and MacLeod (1980).
53 See Eliot (1994b, 1996).
54 Darnton (1990b), p. 157.
55 Rose (1992), p. 49.
56 See Topham (1998).
57 See Chartier (1994), pp. 1–23, and Darnton (1990b).
58 A useful introduction to reading theory is provided by Bennett (1995). One of the more
significant applications of reading theory to the analysis of early nineteenth-century reading
audiences is found in Klancher (1987).
59 An overview of recent work is given in Golinski (1990b). Particularly notable examples
are Shapin (1984a), Benjamin, Cantor, and Christie (1986), Cantor (1989), and Dear (1991).
60 Myers (1989, 1992, 1997) and Secord (1985). Also relevant in this context is Shapin and
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Barnes (1976).
61 Fissell (1992).
62
Howsam (2000).
63 Some attention is given to formal strategies in Topham (1998).
64 The best introduction to the subject is Gaskell (1974). A ground-breaking application of
bibliography to the history of reading is D. F. McKenzie’s study of the effects of formal
changes on the status and meaning of William Congreve’s plays. See McKenzie (1981).
McKenzie has been profoundly influential in the dialogue between traditional analytical
bibliography and the new book history. See McKenzie (1985) and Johns (1998a), pp. 184–5.
65 Chartier (1994), p. 23.
66 Chartier (1994), p. 4.
67 There are a number of excellent studies of the reading of science in earlier periods. See
Sherman (1995, 1996), Johns (1996), Stewart (1996), and Walters (1997). Susan Sheets-
Pyenson’s pioneering study of Charles Darwin’s reading of natural history periodicals does
little to situate his practice in regard to a community of readers. See Sheets-Pyenson (1981a).
On reading practices more generally in nineteenth-century Britain see especially Jordan and
Patten (1995) and Vincent (1989).
68 Houghton (1966-1989); a CD-ROM edition was published by Routledge in 1999. The
authors of reviews in the Athenaeum can often be identified from the publisher’s marked file
of the journal at City University, London.
69 Mineka (1944), p. 72.
70 Flint (1993).
71 On Duppa’s Manual see Topham (1992), pp. 407–13.
72 On the public reading of newspapers see Aspinall (1946), p. 38; on family reading see
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Davidoff and Hall (1994).
73 Altick (1957), p. 92.
74
See Vincent (1983), esp. p. 214.
75 On the intended role of scientific reading in the mechanics’ institutes see especially Shapin
and Barnes (1977). On scientific reading at the universities, see especially Fyfe (1997).
76 See Altick (1957), pp. 141–72, Layton (1973), Russell-Gebbett (1977), and Laqueur
(1976).
77 The general distinction was made independently by David Hall and Rolf Engelsing (for
America and Germany respectively), although the terminology belongs to Engelsing. See
Hall (1996) and (on Engelsing) Darnton (1990b), pp. 165–7.
78 Dibdin (1825), vol. 1, pp. xi–xii.
79 Knight (1832), p. iii.
80 Knight (1832), p. iv.
81 Knight (1833). The articles have subsequently been reprinted in several forms, and are
now available at http://english.cla.umn.edu/lkd/pm/CommHist.html. See Dickinson and
Wadsworth (1997). For a modern introduction to the technology of early nineteenth-century
book manufacture see Gaskell (1974), pp. 189–296.
82 A helpful financial analysis of the publication of the Penny Magazine is provided in
Bennett (1982).
83 Erickson (1996), p. 19. For the distinction between ‘soft’ and ‘hard’ determinism see
MacKenzie and Wajcman (1999), p. 4. There is, of course, a well developed body of
scholarship relating to the introduction of moveable type in the West, which espouses a more
or less ‘hard’ version of technological determinism, the best-known example of which is
Elizabeth Eisenstein’s Printing Press as an Agent of Change (Eisenstein 1979). On the
102
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technological revolution in book manufacture in the early nineteenth century see Sheets-
Pyenson (1987). Sheets-Pyenson is careful to situate her analysis in the context of changes in
publishing practices, rather than giving changes in technology causal primacy.
84 See especially Knight (1854), pp. 238–59.
85 Feather (1988), p. 130.
86 On the failures of ‘neoclassical’ economics in accounting for technological change see
Mackenzie and Wajcman (1999), p. 13.
87 Erickson (1996), p. 8.
88 Knight (1854). See also Altick (1957), pp. 260–93, which relies heavily on Knight’s
account.
89 On publishers’ protectionism in the early nineteenth century see Barnes (1964) and Fyfe
(1999).
90 Knight (1854), p. 267.
91 The most helpful overview of the trade in the nineteenth century is Feather (1988), which
provides a useful introduction to the more recent scholarship in this area. Marjorie Plant
(1939) gives some consideration to the economic aspects of the early nineteenth-century
book trade in her classic study The English Book Trade.
92 Eliot (1995), p. 39.
93 Eliot (1997), p. 97.
94 Even Richard Altick, who, in a useful paper, sought to assess the state of the mid-
nineteenth-century book market, shied away from attempting to characterize the assessments
of the market made by the publishers themselves. See Altick (1989).
95 Raven (1992), p. 42.
96 Raven (1992), p. 25. On the expansion of the book trade in the eighteenth century see also
103
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Feather (1988), 67–125, Brewer (1997), pp. 125–97, and Raven (forthcoming).
97 On the appearance of a new natural history genre see, for instance, Ritvo (1985) and Ritvo
(1981), pp. 8–9. On the vogue for popular natural philosophical works see Rousseau (1982),
Secord (1985), and Walters (1992), 2–50.
98 The ruling meant that new books could only obtain twenty-eight years’ copyright
protection at most, as directed by the 1710 copyright act, and a vast number of very valuable
and hitherto private “copies” thus became public property. See Feather (1988), pp. 67–83.
99 Some of the issues surrounding the rise of the author-genius are considered in Chartier
(1994), pp. 25–59. See also Woodmansee (1984), Rose (1988, 1993), and Hesse (1990).
100 Among more recent studies are Patten (1978) and Sutherland (1976, 1995).
101 Stoddard (1987), p. 4.
102 See, for example, Topham (1998). In his detailed study of the relations of authors with
printers and publishers in the production of nineteenth-century books, Alan Dooley (1992)
considers the extent to which changes in technology affected the control of leading authors
over their texts, noting that in some ways it was increased through such innovations.
103 See, for example, Grant (1838), vol. 1, p. 181f. On the tradition of self-publishing in
science see, for example, Noblett (1988).
104 See Myers (1983) and Roldán-Vera (2000a, 2000b).
105 Secord (1985).
106 On two of the more important entrepreneurial publishers of the early nineteenth century,
namely Richard Phillips and William Pinnock, see Issitt (1998, 2000) and Roldán-Vera
(2000a, 2000b) respectively.
107 Sheets-Pyenson (1981b), p. 51. On the publishers behind some of the other new serialized
‘libraries’ of the late 1820s and early 1830s see Peckham (1951) and Bennett (1976).
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108 Sheets-Pyenson (1981c, 1982, 1985). See also Allen (1996).
109 Brock and Meadows (1998), esp. pp. 89–145.
110
Brock (1980), p. 95.
111 Although beyond the chronological scope of this paper, Roy M. MacLeod’s historical
contribution to the centenary number of Nature deserves particular mention in this context,
because of his account of Alexander Macmillan’s central role in the project. See MacLeod
(1969).
112 The chapter on ‘Scientific publishing and bookselling’ in Thornton and Tully (1971),
which runs to only thirteen pages in total, mentions only four science publishers for early
nineteenth-century Britain: Longman, Murray, Taylor & Francis, and Macmillan. One
particularly valuable study for the later nineteenth century is MacLeod 1980.
113 On Murray see Smiles (1891) and Paston (1932).
114 See Eliot and Sutherland (1989).
115 Simpkin, Marshall and Co. receive attention in Bracken and Silver (1995). Orr,
Ridgeway, and Baillière appear in Boase (1892-1921).
116 On Longmans see Briggs (1974) and Cox and Chandler (1924).
117 See, for example, Curwen (1873), Rees (1896), Marston (1904), esp. pp. 323–30, and
Knight (1864–5).
118 See, for example, Maxted (1977), Brown (1982), Todd (1972), the Dictionary of Literary
Biography, esp. vols 106 (Anderson and Rose, 1991) and 154 (Bracken and Silver, 1995),
Fraser (in press), and ABHB: Annual Bibliography of the History of the Printed Book and
Libraries. A project to produce a comprehensive British Book Trade Index is ongoing under
the direction of Peter Isaac of the University of Newcastle-upon-Tyne; it is ultimately
intended to be published online. See also the Scottish Book Trade Index, which is available
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online at http://www.nls.ac.uk/catalogues/sbti/index.htm.
119 Weedon and Bott (1996); a version of this list, together with lists of North American
publishers’ archives, is available at http://www.indiana.edu/~sharp. It is important to observe
that the destruction of a publisher’s archive can sometimes be compensated for by the
existence of the relevant printer’s archives.
120 David Knight gives limited attention to the question in Knight (1980).
121 Elwin (1849), p. 322.
122 See Woodmansee (1984), Rose (1988), Hesse (1990), Brewer (1997), Collins (1928), and
Bonham-Carter (1978).
123 Shapin and Thackray (1974), p. 14.
124 Altick (1962). A limited prosopographical analysis of 878 novelists is given in Sutherland
(1995). Nigel Cross provides some very valuable data concerning nineteenth-century
authors, drawn from the archive of the Royal Literary Fund, in Cross (1985). On authorship
in the nineteenth-century see also Collins (1928), Bonham-Carter (1978), and Gross (1991).
125 Wallis and Wallis (1986). See also Fauvel (1989).
126 Rossiter (1986).
127 See Gates and Shteir (1997). See also Gates (1993), Shteir (1987, 1989–90, 1996, 1997),
and Benjamin (1991).
128 For an introduction to work in this field see Beer (1990), Schatzberg, Waite, and Johnson
(1987), and the bibliographical note to Paradis (1997), p. 171.
129 Lightman (1997a), pp. 187, 188. See also Gates (1997).
130 Lightman (1997a), p. 206. See also Lightman (1989, 1996, 1997b). Lightman’s claim is
taken up in Barton (1998).
131 See, for example, Sheets-Pyenson (1985) and Brock (1980). See also Bynum and Wilson
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(1992) and other essays in that collection.
132 James Secord has used Chambers’s Edinburgh Journal to chart the development of
Chambers’s views. See Secord (1989a). Two doctoral theses have examined the educational
and improving literature issued by the Chambers brothers. See Cooney (1977) and
Hutchinson (1980).
133 Desmond (1987), p. 104. See also Topham (1993), ch. 7.
134 Some consideration of this development is given in Ellegard (1990), pp. 62–94, Morrell
and Thackray (1981), pp. 139–48, Orange (1975), and Secord (1989b).
135 See, for example, Hays (1981), Patterson (1983), and Lindee (1991).
136 The two parts of his Solar System, published in 1846 by the Religious Tract Society, had
sold 30,510 and 26,890 by 1850. See Astore (1995), p. 194, and Astore (forthcoming). On
Dick see also Smith (1983). On popular science publishing of the Religious Tract Society
see Fyfe (2000).
137 Phillips (1832). On Phillips see Axon (1888), pp. 238–57, and Issitt (1998, 2000). I am
grateful to John Issitt for providing me with several useful references.
138 Kitteringham (1981), p. 18, and Altick (1957), p. 101–2. On the prevalence of almanacs,
chapbooks, herbals, and tracts, see also Neuburg (1977), James (1976), and Vincent (1989),
esp. pp. 156–95. On astrological almanacs see Anderson (1999).
139 James (1976), pp. 53–4, and Vincent (1989), pp. 192–3.
140 See, for instance, Lightman (1997a) and Shteir (1996).
141 On the essentialist approach see Morrell (1990). Historians of medicine have been
somewhat quicker to examine the place of authorship in the ‘occupational pluralism’ which
was a ‘central feature of medical life in Victorian Britain’. See, for example, Bynum and
Wilson (1992); the quotation is from p. 41. See also Porter (1992).
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142 See, for example, Walters (1992), Ch. 1.
143 See, for example, Collins (1928), Ch. 2, and Jack (1963), pp. 31–8.
144
Brock (1984). Although beyond the chronological scope of this paper, A. J. Meadows’
study of Norman Lockyer deserves mention as considering the financial aspects of scientific
authorship. See Meadows (1972), pp. 16–38.
145 Shapin (1984b), esp. p. 19.
146 Yeo (1993), pp. 81, 84. The quotation comes from a letter from J. G. Lockhart to John
Murray, 26 October 1839, quoted in Smiles (1891), vol. 2, p. 454. The Edinburgh Review set
new levels of remuneration when it started in 1802, offering authors an unheard of 10 guineas
per sheet (that is, for every 16 octavo pages); with rivalry from the Quarterly Review, the rate
later rose so that 10-16 guineas per sheet represented the bare minimum, and 20-25 guineas
was the average. See Erickson (1996), pp. 75, 78.
147 Brock (1984), pp. 38, 39.
148 Bynum and Wilson (1992), pp. 36, 39, and Curwen (1873), p. 343. On Wakley see
Bostetter (1985).
149 See Yeo (1999) and Brown (1982), p. 51.
150 Yeo (1991). See also Collison (1966) and Layton (1965).
151 Jack (1963), p. 34.
152 See, for instance, Topham (2000) and McKitterick (1998).
153 On the importance of translation as a form of literary labour in the history of science see
Rupke (2000).
154 Bennett (1976), p. 161.
155 The figures for Marcet are derived from the Longman archive at the University of
Reading. See Horrocks (1987), Appendix. The figures for Darwin are derived from the
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Murray archive at John Murray (publishers), 51 Albermarle Street, London. See Peckham
(1959), Appendix II.
156
The perils of authorship in the nineteenth century are particularly well evidenced in Cross
(1985), which gives details of the conditions of authors taken from the archives of the Royal
Literary Fund. The archives, which represent an important source for those interested in the
financial aspects of scientific authorship in this period, are available on microfilm. See Cross
(1984).
157 Brewster to Forbes, 11 February 1830, in Shairp, Tait, and Adams-Reilly (1873), p. 59.
158 Brewster to Forbes, [n.d.], in Shairp, Tait, and Adams-Reilly (1873), p. 58.
159 The Penny Cyclopædia of the Society for the Diffusion of Useful Knowledge, 27 vols.,
1833–44, s.v. ‘Genius’.
160 The issue of the relationship between literary and scientific genius was central to late
Enlightenment discussions of the nature of literary property rights, and ultimately of the
figure of the ‘author’. See, for instance, Rose (1988), Hesse (1990), and Woodmansee
(1984). See also Foucault (1977). On the emergence of the Romantic conception of
scientific genius see Schaffer (1990). On questions of authorship and originality in early
nineteenth-century political economy see Cooper and Murphy (2000).
161 Rudwick (1985), pp. 433–5. On the processes of writing scientific papers, see also Secord
(1996). Although Greg Myers’s Writing Biology (1990) deals with modern subject matter,
the approach taken is of relevance to the examination of earlier material.
162 Carpenter to Chambers, 20 January 1842, National Library of Scotland, Dep. 341/96, item
32. I am grateful to James Secord for this reference. See also Goldspink (1995), p. 24. This
was not the only hack work which Carpenter was anxious to keep anonymous: as James
Secord has shown, he was employed a couple of years later by the medical publisher John
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Churchill to advise on revisions to Vestiges. See J. A. Secord (1994), pp. xxxiv, xxxvi.
163 Carpenter (1888), pp. 27–8, and Goldspink (1995), pp. 17–19.
164
Bynum and Wilson (1992), pp. 41–2.
165 Yeo (1993), p. 114. See also Cannon (1960), p. 10.
166 Whewell (1857), vol. 2, pp. 346–8, and Wood (1954), p. 174. On the reception of
Young’s optical work, see also Cantor (1983), pp. 140–6.
167 Yeo (1993), p. 88.
168 James Secord, ‘Conversations on creation’, paper read at a day-long conference on the
Vestiges of the natural history of creation, held at the Wellcome Institute for the History of
Medicine on 16 November 1994. I would like to thank the author for providing me a copy of
his paper and allowing me to refer to it. See also Secord (in press).
169 Yeo (1989).
170 Johns (1998b), p. 263. This ground-breaking book raises important issues for historians
concerned with the relevance of the history of the book to history of science in all periods.
Although the book relates mainly to the early modern period, the conclusion specifically
draws attention to the need for detailed study of nineteenth-century book history in relation to
the history of science, and of the history of ‘knowledge’ more generally.